Heavy ion CT system based on measurement of residual range distribution, Igaku Butsuri, vol.22, p.42, 2002. ,
A data acquisition system for medical imaging, 2013 3rd International Conference on Advancements in Nuclear Instrumentation, Measurement Methods and their Applications (ANIMMA), p.124, 2013. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00868893
Performance evaluation of the whole-body PET scanner ECAT EXACT HR + following the IEC standard, IEEE Transactions on Nuclear Science, vol.44, p.113, 1997. ,
Charged particle's flux measurement from PMMA irradiated by 80 MeV/u carbon ion beam, Physics in Medicine & Biology, vol.57, p.43, 2012. ,
Erratum: Precise measurement of prompt photon emission from 80 MeV/u carbon ion beam irradiation, Journal of Instrumentation, vol.8, p.76, 2013. ,
Practical considerations in the calibration of CT scanners for proton therapy, Journal of Applied Clinical Medical Physics, vol.15, pp.202-220, 2014. ,
Sensitivity of intensity modulated proton therapy plans to changes in patient weight, Radiotherapy and Oncology, vol.86, p.37, 2008. ,
Is it necessary to plan with safety margins for actively scanned proton therapy?, In: Physics in Medicine & Biology, vol.56, p.34, 2011. ,
Development of a Compton camera for prompt-gamma medical imaging, Radiation Physics and Chemistry 140. 2nd International Conference on Dosimetry and its Applications, p.89, 2016. ,
Energy resolution improvement of CdTe detectors by using the principal component analysis technique, Nuclear Instruments and Methods, vol.882, pp.168-9002, 2018. ,
Performance evaluation of a pixellated Ge Compton camera, Physics in Medicine & Biology, p.99, 2011. ,
Stratix II GX Device Handbook, vol.1, p.111, 2009. ,
Cyclone III Device Handbook, vol.1, p.111, 2012. ,
Stratix V Device Handbook, vol.3, p.116, 2015. ,
Cyclone IV Device Handbook, vol.1, p.124, 2016. ,
Diagnostic value of recombinant human thyrotropin-stimulated 123 I whole-body scintigraphy in the follow-up of patients with differentiated thyroid cancer, Clinical Nuclear Medicine, vol.37, p.99, 2012. ,
Cyclinacs: Fast-Cycling Accelerators for Hadrontherapy, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, p.25, 2009. ,
LIBO-a linac-booster for protontherapy: construction and tests of a prototype, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 521, vol.2, p.25, 2004. ,
Construction, test and operation of a proton range radiography system, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 629.1, p.41, 2011. ,
,
Accelerators for hadrontherapy: From Lawrence cyclotrons to linacs, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 620, vol.2, p.24, 2010. ,
High Frequency Linacs for Hadrontherapy, Reviews of Accelerator Science and Technology, p.25, 2009. ,
DOI : 10.1142/9789814299350_0006
Advanced Quality Assurance for CNAO, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 617.1. 11th Pisa Meeting on Advanced Detectors, vol.43, p.41, 2010. ,
Fast image reconstruction for Compton camera using stochastic origin ensemble approach, In: Medical Physics, vol.38, issue.1, pp.429-438, 2011. ,
Scintillation Camera, Review of Scientific Instruments, vol.29, p.97, 0196. ,
DOI : 10.1063/1.1715998
Scintillation Camera with Multichannel Collimators, Journal of Nuclear Medicine, vol.5, p.97, 0196. ,
Multiplane Tomographic Gamma-Ray Scanner, International Atomic Energy Agency (IAEA), p.97, 1969. ,
Principle design of a protontherapy, rapid-cycling, variable energy spiral FFAG, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.602, p.25, 2009. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00372680
Space radiation effects on plant and mammalian cells, p.20, 2014. ,
DOI : 10.1016/j.actaastro.2014.05.005
Spaceloft ®-High performance Insulation for building envelopes. Data Sheet, p.111, 2011. ,
Preliminary results of an in-beam PET prototype for proton therapy, Nuclear Instruments and Methods in Physics Research Bibliography Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 591.1. Radiation Imaging Detectors, p.71, 2007. ,
Comparison of two dedicated 'in beam' PET systems via simultaneous imaging of 12 C-induced ? +-activity, Physics in Medicine & Biology, vol.54, p.71, 2009. ,
Boron Neutron Capture Therapy of Cancer: Current Status and Future Prospects, Clinical Cancer Research, vol.11, pp.3987-4002, 2005. ,
Cancer and radiation therapy: current advances and future directions, International journal of medical sciences, vol.9, issue.3, pp.193-199, 2012. ,
DOI : 10.7150/ijms.3635
URL : http://www.medsci.org/v09p0193.pdf
Application of spherical harmonics to image reconstruction for the Compton camera, Physics in Medicine & Biology, vol.43, p.101, 1998. ,
Implementation and initial clinical experience of offline PET/CT-based verification of scanned carbon ion treatment, Radiotherapy and Oncology, vol.107, pp.167-8140, 2013. ,
THERANOSTICS: From Molecular Imaging Using Ga-68 Labeled Tracers and PET/CT to Personalized Radionuclide Therapy-The Bad Berka Experience, p.99, 2012. ,
Dual-energy CT-based material extraction for tissue segmentation in Monte Carlo dose calculations, Physics in Medicine & Biology, vol.53, p.36, 2008. ,
Dosimetric accuracy of planning and delivering small proton therapy fields, Physics in Medicine & Biology, vol.55, p.38, 2010. ,
Review of theories on ionization in fast ion-atom collisions with prospects for applications to hadron therapy, Journal of Mathematical Chemistry, vol.47, pp.1366-1419, 2010. ,
Direct Comparison of Biological Effectiveness of Protons and Alpha/particles of the Same LET. II. Mutation Induction at the HPRT Locus in V79 Cells, International Journal of Radiation Biology, vol.61, p.19, 1992. ,
Beam localization via 15 O activation in proton-radiation therapy, Nuclear Instruments and Methods, vol.125, p.42, 1975. ,
Preventing or reducing late side effects of radiation therapy: radiobiology meets molecular pathology, Nature reviews. Cancer, vol.6, issue.7, pp.702-713, 2006. ,
, Computer Programs for Calculating Stopping-Power and Range Tables for Electrons, Protons, and Helium Ions, 2018.
An overview of the theories used in compton scattering calculations". In: Radiation Physics and Chemistry 50.1. Inelastic Scattering of X-Rays and Gamma Rays, p.60, 1997. ,
Quantification of interplay effects of scanned particle beams and moving targets, Physics in Medicine & Biology, vol.53, p.33, 2008. ,
Management of organ motion in scanned ion beam therapy, Radiation Oncology, vol.12, p.34, 2017. ,
HIC-1: a first approach to the calculation of heavy-ion reactions at energies greater than or equal to 50 MeV/nucleon, Office of Scientific & Technical Information Technical Reports, 1974. ,
Zur Theorie des Durchgangs schneller Korpuskularstrahlen durch Materie, Annalen der Physik, vol.397, p.10, 1930. ,
Evaluated Nuclear Structure Data File (ENSDF), Nuclear Data for Science and Technology, vol.817, 1992. ,
Chapter One-Stochastics of Energy Loss and Biological Effects of Heavy Ions in Radiation Therapy, Theory of Heavy Ion Collision Physics in Hadron Therapy, 2013. ,
, Advances in Quantum Chemistry, vol.65, pp.1-38
Energy loss of 70 MeV protons in elements, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, vol.66, p.38, 1992. ,
INSIDE in-beam positron emission tomography system for particle range monitoring in hadrontherapy, In: Journal of Medical Imaging, p.71, 2017. ,
An analysis of an implantable dosimeter system for external beam therapy, In: International Journal of Radiation Oncology Biology Physics, vol.63, p.44, 2005. ,
Ben Cassen and the development of the rectilinear scanner, p.46, 1996. ,
Biology of charged particles, Cancer journal, vol.4, pp.271-284, 2009. ,
Heavy-Ion Radiobiology: Cellular Studies, Advances in Radiation Biology, vol.11, pp.295-389, 1984. ,
, Zur Bremsung rasch bewegter Teilchen beim Durchgang durch Materie, vol.408, p.10, 1933.
Benchmarking nuclear models of FLUKA and GEANT4 for carbon ion therapy, Physics in Medicine & Biology, vol.55, p.77, 2010. ,
On the decrease of velocity of swiftly moving electrified particles in passing through matter, vol.178, p.12, 1915. ,
LV. Production of helium by radium, The London, vol.22, p.48, 1911. ,
Real-time prompt gamma monitoring in spot-scanning proton therapy using imaging through a knife-edge-shaped slit, Physics in Medicine & Biology, vol.57, p.84, 2012. ,
Das allgemeine Fehlergesetz, die Schwankungen der Feldstärke in einem Dielektrikum und die Zerstreuung der?-Strahlen, Zeitschrift für Physik 5.1, p.13, 1921. ,
Scientific and technological development of hadrontherapy, Astroparticle, Particle and Space Physics, Detectors and Medical Physics Applications, p.22, 2010. ,
First results on proton radiography with nuclear emulsion detectors, Journal of Instrumentation 5.09, P09001, p.42, 2010. ,
DOI : 10.1088/1748-0221/5/09/p09001
URL : http://arxiv.org/pdf/1003.6005
On the ionization curves of radium, The London, vol.8, pp.726-738, 1904. ,
On the ? particles of radium, and their loss of range in passing through various atoms and molecules, The London, vol.10, pp.318-340, 1905. ,
Recent advances in light ion radiation therapy, International Journal of Radiation Oncology Biology Physics, vol.58, issue.7, pp.603-616, 2004. ,
12C fragmentation at 95 MeV per nucleon for hadrontherapy. Experimental study and simulation with thick PMMA targets, p.17, 2010. ,
URL : https://hal.archives-ouvertes.fr/tel-00536121
Nuclear reaction measurements of 95MeV/u 12C interactions on PMMA for hadrontherapy, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 269, vol.22, p.17, 2011. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00619633
The WaveCatcher family of SCAbased 12-bit 3.2-GS/s fast digitizers, 2014 19th IEEE-NPSS Real Time Conference, p.134, 2014. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00995691
Performance Evaluation of a Whole-Body PET Scanner Using the NEMA Protocol, Journal of Nuclear Medicine, vol.38, p.113, 1997. ,
ROOT: An object oriented data analysis framework, Nuclear Instruments and Methods in Physics Reasearch Section A: Accelerators, Spectrometers, Detectors and Associated Equipment A389, vol.136, pp.126-128, 1997. ,
A comprehensive characterization of the time resolution of the Philips Digital Photon Counter, Journal of Instrumentation, vol.11, p.163, 2016. ,
Development of an advanced Proton Range Radiography system for hadrontherapy, vol.43, p.41, 2015. ,
Development of a fast proton range radiography system for quality assurance in hadrontherapy, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 732. Vienna Conference on Instrumentation, p.41, 2013. ,
Proton computed tomography, Modern Physics Letters A30, vol.17, p.39, 2015. ,
Beam-on imaging of short-lived positron emitters during proton therapy, Physics in Medicine & Biology, vol.62, p.71, 2017. ,
xTCA developments in Marseille for the LHCb Readout, TWEPP 2012 Topical Workshop on Electronics for Particle Physics, p.124, 2012. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00757616
An in-beam PET system for monitoring ion-beam therapy: test on phantoms using clinical 62 MeV protons, Journal of Instrumentation 9, vol.04, p.71, 2014. ,
First in situ TOF-PET study using digital photon counters for proton range verification, Physics in Medicine & Biology, vol.61, pp.6203-6230, 2016. ,
Pioneers and early years. A history of British radiology, Medical History, vol.32, pp.224-224, 1988. ,
The Dielectric Wall Accelerator, Reviews of Accelerator Science and Technology, p.25, 2009. ,
DOI : 10.1142/s1793626809000235
Study of the secondary neutral radiation in proton therapy: toward an indirect in vivo dosimetry, In: Medical Physics 39, vol.12, p.81, 2012. ,
An indirect in vivo dosimetry system for ocular proton therapy, Radiation protection dosimetry 161.1-4, p.17, 2014. ,
DOI : 10.1093/rpd/nct284
Results of heavy ion radiotherapy, Radiation and environmental biophysics, vol.34, issue.1, p.21, 1995. ,
DOI : 10.1007/bf01210545
URL : https://digital.library.unt.edu/ark:/67531/metadc1338749/m2/1/high_res_d/10179402.pdf
An investigation into the clinical effects of fast neutrons, The British Journal of Radiology, p.22, 1971. ,
Analytical and experimental FWHM of a gamma camera: theoretical and practical issues, PeerJ-Life & Environment, vol.3, p.208, 2015. ,
DOI : 10.7717/peerj.722
URL : https://peerj.com/articles/722.pdf
High energy beams of radioactive nuclei and their biomedical applications, International Journal of Radiation Oncology Biology Physics, issue.81, p.68, 1981. ,
Développement de cartes Front-End avec leur firmware associé pour un hodoscope de faisceau et un diffuseur silicium utilisées pour le contrôle de dose en ligne en hadronthérapie, vol.122, p.111, 2017. ,
MicroPET: a high resolution PET scanner for imaging small animals, IEEE Transactions on Nuclear Science, vol.44, p.94, 1997. ,
DOI : 10.1109/nssmic.1996.591583
Three-dimensional activity distribution from multiple positron scintigraphs, Journal of Nuclear Medicine, vol.12, p.93, 1971. ,
Instrumentation for treatment of cancer using proton and light-ion beams, Review of Scientific Instruments, vol.64, p.39, 1993. ,
DOI : 10.1063/1.1143946
The influence of CT image noise on proton range calculation in radiotherapy planning, Physics in Medicine & Biology, vol.55, p.36, 2010. ,
A 62 MeV proton beam for the treatment of ocular melanoma at Laboratori Nazionali del Sud-INFN (CATANIA), 2003 IEEE Nuclear Science Symposium. Conference Record, vol.5, p.71, 2003. ,
Caractérisation d'un détecteur, p.161, 2018. ,
A Quantum Theory of the Scattering of X-rays by Light Elements, Physical Review, vol.21, issue.5, p.58, 1923. ,
Radiography with protons, Naturwissenschaften 61, vol.5, p.39, 1974. ,
DOI : 10.1007/bf00599915
Representation of a Function by Its Line Integrals, with Some Radiological Applications, Journal of Applied Physics, vol.34, p.39, 1963. ,
Quantitative proton tomography: preliminary experiments, Physics in Medicine & Biology, vol.21, p.39, 1976. ,
DOI : 10.1088/0031-9155/21/4/007
Caractérisation d'un hodoscope de faisceau pour l'hadronthérapie, Master internship report, vol.166, p.156, 2015. ,
High speed section scanning of the brain, Archives of Neurology, vol.15, p.97, 1966. ,
Towards direct reconstruction from a gamma camera based on Compton scattering, IEEE Transactions on Medical Imaging 13, vol.2, p.101, 1994. ,
On the detector arrangement for in-beam PET for hadron therapy monitoring, Physics in Medicine & Biology, vol.51, p.2143, 2006. ,
Direct time-of-flight for quantitative, real-time in-beam PET: a concept and feasibility study, Physics in Medicine & Biology, vol.52, p.67, 2007. ,
NanOx, a new model to predict cell survival in the context of particle therapy, Physics in Medicine & Biology, vol.62, p.33, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01446509
Sur une substance nouvelle radio-active, contenue dans la pechblende, Comptes Rendus Hebdomadaires des Séances de l'Académie des Sciences, vol.127, p.48, 1898. ,
Brachytherapy: a review, In: Journal of Critical Reviews, vol.3, p.48, 2016. ,
A low noise and high dynamic range CMOS integrated Electronics associated with double sided Silicon Strip Detectors for a Compton camera gamma-ray detecting system, 2014 IEEE Nuclear Science Symposium and Medical Imaging Conference, p.110, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-01131450
A low noise and high dynamic charge sensitive amplifier-shaper associated with Silicon Strip Detector for compton camera in hadrontherapy, 2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record, p.111, 2012. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00753748
Improved Nearest Neighbor Methods for Gamma Photon Interaction Position Determination in Monolithic Scintillator PET Detectors, IEEE Transactions on Nuclear Science, vol.58, p.89, 2011. ,
New methods of real-time control imaging for ion therapy, NIRS-ETOILE Joint Symposium on Carbon Ion Therapy, p.43, 2009. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00363382
Monte Carlo Simulations of Particle Interactions with Tissue in Carbon Ion Therapy, International Journal of Particle Therapy, vol.2, issue.3, p.77, 2015. ,
Assessment and improvements of Geant4 hadronic models in the context of promptgamma hadrontherapy monitoring, Physics in Medicine & Biology, vol.59, p.77, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-00967197
Performance evaluation of a prototype Positron Emission Tomography scanner using Digital Photon Counters (DPC), 2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC), p.72, 2012. ,
History of hadron therapy accelerators, Physica Medica, vol.31, p.22, 2015. ,
Short-lived positron emitters in beam-on PET imaging during proton therapy, Physics in Medicine & Biology, vol.60, p.71, 2015. ,
Etude de conception d'ASICs de lecture et d'étiquetage en temps associés à des photomultiplicateurs pour un hodoscope de faisceau en hadronthérapie, 2012. ,
Université Claude Bernard-Lyon 1 (cit, p.120 ,
Front-end multichannel PMT-associated readout chip for hodoscope application, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 695. New Developments in Photodetection NDIP11, p.119, 2012. ,
DOI : 10.1016/j.nima.2011.11.042
URL : https://hal.archives-ouvertes.fr/in2p3-00649655
Very fast front end ASIC associated with multi-anode PMTs for a scintillating-fibre beam hodoscope, Journal of Instrumentation, vol.8, p.119, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00990850
Observations on a case of cancer of the stomach treated by Röntgen rays, Lyon Medical Journal, vol.82, issue.6, p.428, 1896. ,
Interplay effects in proton scanning for lung: a 4D Monte Carlo study assessing the impact of tumor and beam delivery parameters, Physics in Medicine & Biology, vol.58, p.37, 2013. ,
Feasibility Studies of a New Event Selection Method to Improve Spatial Resolution of Compton Imaging for Medical Applications, IEEE transactions on radiation and plasma medical sciences 1.4, pp.358-367, 2017. ,
The origins of medical physics, Physica Medica: European Journal of Medical Physics, vol.30, issue.6, pp.397-402, 2014. ,
The Structure of the Compton Shifted Line, Proceedings of the National Academy of Sciences of the United States of America 14, vol.11, p.60, 1928. ,
Compton Modified Line Structure and its Relation to the Electron Theory of Solid Bodies, Physical Review, vol.33, issue.5, p.60, 1929. ,
Charged particles in radiation oncology, Nature Reviews Clinical Oncology, vol.7, p.37, 2009. ,
Nuclear physics in particle therapy: a review, In: Reports on Progress in Physics, vol.79, p.37, 2016. ,
Cross sections relevant to gamma-ray astronomy: Proton induced reactions, Physical Review C, vol.23, issue.5, p.74, 1981. ,
Monte Carlo simulation of prompt gamma-ray emission in proton therapy using a specific track length estimator, Physics in Medicine & Biology, vol.60, p.77, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01207342
Characterization of an LSO scintillator for space applications, Journal of Physics: Conference Series, vol.632, p.113, 2015. ,
Quantification of the Relative Biological Effectiveness for Ion Beam Radiotherapy: Direct Experimental Comparison of Proton and Carbon Ion Beams and a Novel Approach for Treatment Planning, International Journal of Radiation Oncology Biology Physics, vol.78, p.170, 2004. ,
Physics Controversies in Proton Therapy, Seminars in Radiation Oncology 23.2. Controversies in Proton Therapy, p.33, 2013. ,
Charged hadron tumour therapy monitoring by means of PET, Proceedings of the International Conference on Imaging Techniques in Subatomic Physics, vol.525, pp.168-9002, 2004. ,
The spatial distribution of positron-emitting nuclei generated by relativistic light ion beams in organic matter, Physics in Medicine & Biology, vol.37, p.69, 1992. ,
The impact of uncertainties in the CT conversion algorithm when predicting proton beam ranges in patients from dose and PET-activity distributions, Physics in Medicine & Biology, vol.55, p.38, 2010. ,
Uncertainties in planned dose due to the limited voxel size of the planning CT when treating lung tumors with proton therapy, Physics in Medicine & Biology, vol.56, p.36, 2011. ,
Reliability of proton-nuclear interaction cross section data to predict proton-induced PET images in proton therapy, Physics in Medicine & Biology, vol.56, p.64, 2011. ,
In vivo dosimetry during external photon beam radiotherapy, International Journal of Radiation Oncology Biology Physics, vol.43, p.44, 1999. ,
X-Ray Treatment-Its Origin, Birth and Early History. Emil H. Grubbe, The Quarterly Review of Biology 26, vol.2, pp.223-223, 1951. ,
Gamma-radiation imaging system based on the Compton effect, Proceedings of the Institution of Electrical Engineers 124, vol.11, p.196, 1977. ,
DOI : 10.1049/piee.1977.0203
Dosimetric effects of residual uncertainties in carbon ion treatment of head chordoma, Radiotherapy and Oncology, vol.113, p.37, 2014. ,
High Energy Nuclear Events, Progress of Theoretical Physics 5, vol.4, p.14, 1950. ,
DOI : 10.1143/ptp.5.570
URL : https://academic.oup.com/ptp/article-pdf/5/4/570/5430247/5-4-570.pdf
Online proton therapy monitoring: clinical test of a Silicon-photodetector-based in-beam PET, Scientific Reports, vol.8, issue.1, p.71, 2018. ,
Online Irradiation Control by means of PET, Ion Beam Therapy: Fundamentals, Technology, p.66, 2012. ,
In-beam PET measurements of biological half-lives of 12C irradiation induced ? +-activity, Acta Oncologica, vol.47, p.65, 2008. ,
Results of a 20 minutes decay measurement of a patient irradiation by the in-beam PET scanner, GSI Scientific Report, vol.380, p.67, 2008. ,
On the effectiveness of ion range determination from in-beam PET data, Physics in Medicine & Biology, vol.55, p.66, 2010. ,
Study for online range monitoring with the interaction vertex imaging method, Physics in Medicine & Biology, vol.62, p.44, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01685525
Large surface gamma cameras for medical imaging: characterization of the bismuth germanate blocks, Journal of Instrumentation 13.08, P08018, 2018. ,
URL : https://hal.archives-ouvertes.fr/hal-01871818
Compton camera study for high efficiency SPECT and benchmark with Anger system, Physics in Medicine & Biology, vol.62, p.99, 0195. ,
URL : https://hal.archives-ouvertes.fr/hal-01685468
Versatile Compton camera for high energy gamma rays: Monte Carlo comparison with Anger camera for medical imaging, 2nd Jagiellonan Symposium on Fundamental and Applied Subatomic Physics, vol.48, pp.1639-1645, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01609541
Victor Despeignes, the Forgotten Pioneer of Radiation Oncology, International Journal of Radiation Oncology Biology Physics, vol.96, issue.6, pp.717-721, 2016. ,
Dose prescription in carbon ion radiotherapy: a planning study to compare NIRS and LEM approaches with a clinically-oriented strategy, Physics in Medicine & Biology, vol.57, p.33, 2012. ,
Carbon ion fragmentation effects on the nanometric level behind the Bragg peak depth, Physics in Medicine & Biology, vol.59, p.17, 2014. ,
A Tracking Compton-Scattering Imaging System for Hadron Therapy Monitoring, IEEE Transactions on Nuclear Science, vol.57, p.89, 2010. ,
Relativistic heavy ion collisions: experiment, LBL, Berkeley, Internal report, p.17, 1982. ,
Calculation of the biological effects of ion beams based on the microscopic spatial damage distribution pattern, International Journal of Radiation Biology, vol.88, issue.1-2, pp.103-107, 2012. ,
Electronique d'acquisition d'une gamma-caméra, PhD thesis. École Doctorale Sciences pour l'ingénieur, 2013. ,
A large area diamond-based beam tagging hodoscope for ion therapy monitoring, European Physical Journal Web Conferences, vol.170, p.165, 2018. ,
URL : https://hal.archives-ouvertes.fr/in2p3-01541626
Large area polycrystalline diamond detectors for online hadron therapy beam tagging applications, 2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop, p.164, 2016. ,
URL : https://hal.archives-ouvertes.fr/in2p3-01417258
QBeRT: an innovative instrument for qualification of particle beam in real-time, Journal of Instrumentation, vol.11, p.41, 2016. ,
The LETI positron tomograph architecture and time of flight improvements, Proceedings of The Workshop on Time of Flight Tomography, p.68, 1982. ,
, , 2006.
G203V stepper drive-data sheet. REV7. GeckoDrive Motor Controls Inc. (cit, p.154, 2010. ,
In vivo proton beam range verification using spine MRI changes, In: International Journal of Radiation Oncology Biology Physics, vol.78, p.44, 2010. ,
I-123 diagnostic thyroid tumor whole-body scanning with imaging at 6, 24, and 48 hours, Clinical Nuclear Medicine, vol.27, p.99, 2002. ,
Linear energy transfer-guided optimization in intensity modulated proton therapy: feasibility study and clinical potential, International Journal of Radiation Oncology Biology Physics, vol.87, issue.1, p.21, 2013. ,
Validation of a GPU-based Monte Carlo code (gPMC) for proton radiation therapy: clinical cases study, Physics in Medicine & Biology, vol.60, issue.6, p.77, 2015. ,
A Compton imaging algorithm for on-line monitoring in hadron therapy, Proceedings SPIE-Society of Photo-Optical Instrumentation Engineers, vol.7961, pp.7961-7969, 2011. ,
Variable RBE in proton therapy: comparison of different model predictions and their influence on clinical-like scenarios, Radiation oncology, vol.11, p.68, 2016. ,
Treatment verification in proton therapy based on the detection of prompt gamma-rays, vol.162, p.133, 2015. ,
Tests of a Compton imaging prototype in a monoenergetic 4.44 MeV photon field-a benchmark setup for prompt gamma-ray imaging devices, Journal of Instrumentation 11.06, P06009, p.89, 2016. ,
Range assessment in particle therapy based on prompt gamma-ray timing measurements, Physics in Medicine & Biology, vol.59, 2014. ,
Fragmentation of 270 a MeV carbon ions in water, 1st International Week on Hadrontherapy : Advances in Hadrontherapy, p.17, 1995. ,
The use of positron emission tomography in pion radiotherapy, International Journal of Radiation Oncology Biology Physics, vol.12, p.42, 1986. ,
Neutron dose in scattered and scanned proton beams: in regard to Eric J. Hall, International Journal of Radiation Oncology Biology Physics, vol.65, p.18, 2006. ,
On the scattering power of radiotherapy protons, In: Medical Physics, vol.37, p.13, 2010. ,
Multiple Coulomb scattering of 160 MeV protons, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, vol.74, p.13, 1993. ,
Treatment delivery systems, Proton and charged particle radiotherapy, vol.1, p.27, 2008. ,
A 4D-optimization concept for scanned ion beam therapy, Radiotherapy and Oncology, vol.109, p.34, 2013. ,
Motion mitigation for lung cancer patients treated with active scanning proton therapy, In: Medical Physics, vol.42, p.37, 2015. ,
Elevated LET components in clinical proton beams, Physics in Medicine & Biology, vol.56, p.17, 2011. ,
A Monte Carlo pencil beam scanning model for proton treatment plan simulation using GATE/GEANT4, Physics in Medicine & Biology, p.175, 2011. ,
URL : https://hal.archives-ouvertes.fr/hal-00630709
GATE as a GEANT4-based Monte Carlo platform for the evaluation of proton pencil beam scanning treatment plans, Physics in Medicine & Biology, vol.57, p.76, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-00797063
Spatial mapping of the biologic effectiveness of scanned particle beams: towards biologically optimized particle therapy, In: Scientific Reports, vol.5, 2015. ,
CHAPTER 8-Collimator Design for Nuclear Medicine, Emission Tomography, pp.153-168, 2004. ,
Secondary beam fragments produced by 200 MeV/u 12 C ions in water and their dose contributions in carbon ion radiotherapy, New Journal of Physics, vol.10, p.75003, 2008. ,
Non-invasive monitoring of therapeutic carbon ion beams in a homogeneous phantom by tracking of secondary ions, Physics in Medicine & Biology, vol.58, p.43, 2013. ,
Magnetic scanning system for heavy ion therapy, Nuclear Instruments and Methods, vol.330, p.29, 1993. ,
Experimental study of nuclear fragmentation of 200 and 400 MeV/u 12 C ions in water for applications in particle therapy, Physics in Medicine & Biology, vol.58, p.17, 2013. ,
Experimental fragmentation studies with 12 C therapy beams, Radiation Protection Dosimetry, vol.122, p.16, 2006. ,
Radiobiology for the radiologist, p.19, 2012. ,
Particle therapy and treatment of cancer, The Lancet Oncology, pp.70795-70796, 2006. ,
Metal Package Photomultiplier Tube R5600 Series. TPMH1066E08. Hamamatsu Photonics K. K. (cit, p.154, 1995. ,
Flat Panel Type Multianode Photomultiplier Tube Assembly H8500, 2006. ,
Preliminary design of a dedicated proton therapy linac, Conference Record of the 1991 IEEE Particle Accelerator Conference, p.25, 1991. ,
Statistical performance evaluation and comparison of a Compton medical imaging system and a collimated Anger camera for higher energy photon imaging, Physics in Medicine & Biology, vol.53, p.7029, 2008. ,
Acoustic pulse generated in a patient during treatment by pulsed proton radiation beam, Radiation Oncology Investigations 3.1, p.44, 1995. ,
, Medical Imaging Physics, p.49, 2002.
Interaction vertex imaging (IVI) for carbon ion therapy monitoring: a feasibility study, Physics in Medicine & Biology, vol.57, p.43, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01118823
Monte Carlo simulation of a protontherapy platform devoted to ocular melanoma, In: Medical Physics, vol.32, p.220, 2005. ,
X-ray absorption studies of metalloporphyrin molecules on surfaces, p.62, 2013. ,
Dr. Saul Hertz (1905-1950) Discovers the Medical Uses of Radioactive Iodine: The First Targeted Cancer Therapy, Thyroid Cancer. Ed. by H. Ahmadzadehfar. Rijeka: IntechOpen. Chap, vol.1, p.99, 2016. ,
Radioactive iodine as an indicator in thyroid physiology. V. The use of radioactive iodine in the differential diagnosis of two types of graves' disease, In: Journal of Clinical Investigation, vol.21, p.99, 1942. ,
Development of a dielectric wall accelerator proton therapy system, 2013 Abstracts IEEE International Conference on Plasma Science (ICOPS), p.25, 2013. ,
Some practical remarks on multiple scattering, Nuclear Instruments and Methods 129, vol.2, p.13, 1975. ,
Compton imaging in proton therapy: reconstructed image of the simulated prompt-? distribution, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-01052717
Proton therapy monitoring by Compton imaging: influence of the large energy spectrum of the prompt-gamma radiation, Physics in Medicine & Biology, vol.61, p.171, 2016. ,
An analytical image reconstruction algorithm to compensate for scattering angle broadening in Compton cameras, Physics in Medicine & Biology, vol.48, p.101, 2003. ,
Usefulness of positron-emission tomographic images after proton therapy, International Journal of Radiation Oncology Biology Physics, vol.53, p.70, 2002. ,
Design and performance characteristics of a whole-body positron transaxial tomograph, In: Journal of Nuclear Medicine, vol.17, p.47, 1976. ,
Clusters of DNA induced by ionizing radiation: formation of short DNA fragments. I. Theoretical modeling, Radiation research 145, vol.2, p.19, 1996. ,
A pencil beam algorithm for proton dose calculations, Physics in Medicine & Biology 41, vol.8, p.35, 1996. ,
In vivo verification of proton beam path by using post-treatment PET/CT imaging, In: Medical Physics, vol.36, issue.9, p.70, 2009. ,
A low-count reconstruction algorithm for Compton-based prompt gamma imaging, Physics in Medicine & Biology, vol.63, p.101, 2018. ,
XCOM: Photon Cross Sections on a Personal Computer, 1987. ,
Comparison of LSO and BGO block detectors for prompt gamma imaging in ion beam therapy, In: Journal of Instrumentation, p.9015, 2015. ,
First test of the prompt gamma ray timing method with heterogeneous targets at a clinical proton therapy facility, Physics in Medicine & Biology, vol.60, p.80, 2015. ,
Test of Compton camera components for prompt gamma imaging at the ELBE bremsstrahlung beam, Journal of Instrumentation 9.05, P05002, p.89, 2014. ,
A fullscale clinical prototype for proton range verification using prompt gamma-ray spectroscopy, Physics in Medicine & Biology, vol.63, p.83, 2018. ,
Abrasion-ablation in reactions between relativistic heavy ions, Physical Review C, vol.12, issue.6, p.14, 1975. ,
Accelerated prompt gamma estimation for clinical proton therapy simulations, Physics in Medicine & Biology, vol.61, p.77, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01276369
Tissue decomposition from dual energy CT data for MC based dose calculation in particle therapy, Medical Physics 41, vol.6, p.61714, 2014. ,
, ICRU Report 33-Radiation Quantities and Units, Journal of the International Commission on Radiation Units and Measurements, p.19, 1980.
, ICRU Report 49-Stopping Powers and Ranges for Protons and Alpha Particles, Journal of the International Commission on Radiation Units and Measurements, p.38, 1980.
, ICRU Report 60-Fundamental Quantities and Units for Ionising Radiation, Journal of the International Commission on Radiation Units and Measurements, p.19, 1998.
, ICRU Report 78-Prescribing, recording, and reporting proton beam therapy, Journal of the International Commission on Radiation Units and Measurements, p.33, 2007.
Labeled 2-deoxy-D-glucose analogs. 18F-labeled 2-deoxy-2-fluoro-D-glucose, 2-deoxy-2fluoro-D-mannose and 14C-2-deoxy-2-fluoro-D-glucose, Journal of Labelled Compounds and Radiopharmaceuticals, vol.14, issue.2, p.94, 1978. ,
Reformulation of a clinical-dose system for carbon-ion radiotherapy treatment planning at the National Institute of Radiological Sciences, Japan, Physics in Medicine & Biology, vol.60, p.33, 2015. ,
Optimum size of a calibration phantom for x-ray CT to convert the Hounsfield units to stopping power ratios in charged particle therapy treatment planning, Journal of Radiation Research, vol.59, p.31, 2018. ,
Range verification system using positron emitting beams for heavy-ion radiotherapy, Physics in Medicine & Biology, vol.49, p.69, 2004. ,
Development of a superconducting rotating-gantry for heavy-ion therapy, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 317. XVIth International Conference on ElectroMagnetic Isotope Separators and Techniques Related to their Applications, p.30, 2012. ,
Relation between carbon ion ranges and x-ray CT numbers, Medical Physics, vol.28, p.31, 2001. ,
Treatment planning for heavy ion radiotherapy: clinical implementation and application, Physics in Medicine & Biology, vol.46, p.33, 2001. ,
The influence of metal artefacts on the range of ion beams, Physics in Medicine & Biology, vol.52, p.36, 2007. ,
Whole-body single-photon emission computed tomography using dual, large-field-of-view scintillation cameras, Physics in Medicine & Biology, vol.24, p.98, 1979. ,
Radionuclide emission computed tomography of the head with 99mCc and a scintillation camera, In: Journal of Nuclear Medicine, vol.18, p.98, 1977. ,
Global Patterns of Cancer Incidence and Mortality Rates and Trends, Cancer Epidemiology and Prevention Biomarkers, vol.19, pp.1055-9965, 2010. ,
Review of medical radiography and tomography with proton beams, In: Reports on Progress in Physics, vol.81, p.40, 2017. ,
A Fast Experimental Scanner for Proton CT: Technical Performance and First Experience with Phantom Scans, IEEE Trans Nucl Sci, vol.63, p.42, 2016. ,
Towards Achieving the Full Clinical Potential of Proton Therapy by Inclusion of LET and RBE Models, Cancers (Basel) 7.1, p.21, 2015. ,
Development of Electron Tracking Compton Camera using micro pixel gas chamber for medical imaging, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 580.2. Imaging, vol.217, pp.168-9002, 2006. ,
Electron-tracking Compton gamma-ray camera for small animal and phantom imaging, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 623.1. 1st International Conference on Technology and Instrumentation in Particle Physics, p.99, 2010. ,
Imaging reagents study for nuclear medicine using an electron-tracking Compton gamma-ray camera, 2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC), p.99, 2009. ,
Three-dimensional beam scanning for proton therapy, Nuclear Instruments and Methods in Physics Research 214, vol.2, p.29, 1983. ,
Application of an RI-beam for cancer therapy: In-vivo verification of the ion-beam range by means of positron imaging, Nuclear Physics A 701.1. 5th International Conference on Radioactive Nuclear Beams, p.69, 2002. ,
A CT calibration method based on the polybinary tissue model for radiotherapy treatment planning, Physics in Medicine & Biology, vol.48, p.31, 2003. ,
Depth-of-interaction determination in NaI(Tl) and BGO scintillation crystals using a temperature gradient, Nuclear Instruments and Bibliography Methods, vol.260, pp.90124-90124, 1987. ,
Benefit of timeof-flight in PET: experimental and clinical results, In: Journal of Nuclear Medicine, vol.49, p.95, 2008. ,
Physics and medicine: a historical perspective, The Lancet 379.9825, pp.140-6736, 2012. ,
Spectroscopic study of prompt-gamma emission for range verification in proton therapy, Physica Medica, vol.34, p.76, 2017. ,
The history and development of medical physics instrumentation: Nuclear medicine, Medical Physics 14.1, pp.146-155, 1987. ,
The Humongotron-a scintillation-camera transaxial tomograph, In: Journal of Nuclear Medicine, vol.18, p.98, 1977. ,
?-ray production by inelastic proton scattering on O-16 and C-12, Physical Review C58, p.74, 1998. ,
Erratum: "Gamma electron vertex imaging and application to beam range verification in proton therapy, Medical Physics 39, vol.10, p.90, 2012. ,
Gamma electron vertex imaging and application to beam range verification in proton therapy, Medical Physics, vol.39, p.90, 2012. ,
Pinhole Camera Measurements of Prompt Gamma-rays for Detection of Beam Range Variation in Proton Therapy, Journal of Korean Physical Society, vol.55, p.84, 2009. ,
Resolution recovery reconstruction for a Compton camera, Physics in Medicine & Biology, vol.58, pp.2823-2840, 2013. ,
Demonstration of threedimensional imaging based on handheld Compton camera, In: Journal of Instrumentation, vol.10, p.88, 2015. ,
Medical application of radioactive nuclear beams at HIMAC, Review of Scientific Instruments, vol.77, p.69, 2006. ,
Über die Streuung von Strahlung durch freie Elektronen nach der neuen relativistischen Quantendynamik von Dirac, Zeitschrift für Physik 52.11, p.60, 1929. ,
Radiation Detection and Measurement. Third Edition, 2000. ,
In vivo proton range verification: a review, Physics in Medicine & Biology 58.15, R131, 2013. ,
Accuracy of proton beam range verification using post-treatment positron emission tomography/computed tomography as function of treatment site, In: International Journal of Radiation Oncology Biology Physics, vol.79, p.70, 2011. ,
Proton Radiography, Science 160, vol.3825, pp.303-304, 1968. ,
Luminescence imaging of water during uniform-field irradiation by spot scanning proton beams, Physics in Medicine & Biology, vol.63, p.45, 2018. ,
A Compton imager for in-vivo dosimetry of proton beams. A design study, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 626-627, p.89, 2011. ,
Range Verification Methods in Particle Therapy: Underlying Physics and Monte Carlo Modeling, In: Frontiers in Oncology, vol.5, p.42, 2015. ,
First tests for an online treatment monitoring system with in-beam PET for proton therapy, p.71, 2015. ,
Proton range monitoring with in-beam PET: Monte Carlo activity predictions and comparison with cyclotron data, Physica Medica, vol.30, p.66, 2014. ,
Treatment planning for heavy-ion radiotherapy: physical beam model and dose optimization, Physics in Medicine & Biology, vol.45, pp.3299-3317, 2000. ,
Application of proton radiography to medical imaging, p.39, 1977. ,
A cost-effective monitoring technique in particle therapy via uncollimated prompt gamma peak integration, Applied Physics Letters, vol.110, p.154102, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01508408
111: Real-time monitoring of the ion range during hadrontherapy: An update on the beam tagging hodoscope, Radiotherapy and Oncology, vol.110, pp.34132-34135, 2014. ,
Prompt-gamma monitoring in hadrontherapy: A review, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 878. Radiation Imaging Techniques and Applications, vol.82, p.78, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01585334
Development of a Compton camera for medical applications based on silicon strip and scintillation detectors, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.787, pp.98-101, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01101334
A Fast Analytical Approach for Prompt Gamma and PET Predictions in a TPS for Proton Range Verification, Medical Physics 42.6Part2, p.77, 2015. ,
Particle therapy of moving targets-the strategies for tumour motion monitoring and moving targets irradiation, The British Journal of Radiology 89.1066, p.20150275, 2016. ,
3D Image Reconstruction from Compton camera data, vol.87, 2016. ,
Image Separation Radioisotope Scanning, Radiology 80, vol.4, p.93, 1963. ,
The Mark IV system for radionuclide computed tomography of the brain, p.97, 1976. ,
Determination of the mean excitation energy of water from proton beam ranges, Radiation Measurements 42, vol.10, p.38, 2007. ,
Considerations for the next Compton telescope mission, AIP Conference Proceedings 510.1, vol.87, pp.789-793, 2000. ,
Prompt gamma detection for range verification in proton therapy, Current Applied Physics, vol.12, p.91, 2012. ,
octreotate: toxicity, efficacy, and survival, Treatment with the radiolabeled somatostatin analog, vol.26, p.99, 2008. ,
Out-of-field dose studies with an anthropomorphic phantom: comparison of X-rays and particle therapy treatments, Radiotherapy and Oncology, vol.105, pp.133-138, 2012. ,
On the energy loss of fast particles by ionization, Journal of Physics, vol.8, p.12, 1944. ,
Deriving concentrations of oxygen and carbon in human tissues using single-and dual-energy CT for ion therapy applications, Physics in Medicine & Biology, vol.58, p.66, 2013. ,
Sub-millimeter nuclear medical imaging with high sensitivity in positron emission tomography using ? + ? coincidences, Journal of Instrumentation 9, vol.01, p.45, 2014. ,
On the application of a 185 MeV proton beam to experimental cancer therapy and neurosurgery: A biophysical study, p.23, 1962. ,
Gamma camera emission tomography. Development and properties of a multi-sectional emission computed tomography system, Acta Radiologica Supplementum, vol.363, p.98, 1980. ,
The Production of High Speed Light Ions Without the Use of High Voltages, Physical Review, vol.40, issue.1, p.22, 1932. ,
Pushing the Limits in Time-of-Flight PET Imaging, IEEE Transactions on Radiation and Plasma Medical Sciences 1.6, p.96, 2017. ,
Optimization of Proton CT Detector System and Image Reconstruction Algorithm for On-Line Proton Therapy, PLOS ONE 11, p.42, 2016. ,
Prototype system for proton beam range measurement based on gamma electron vertex imaging, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.857, p.90, 2017. ,
Submillimeter ionoacoustic range determination for protons in water at a clinical synchrocyclotron, Physics in Medicine & Biology, vol.62, p.44, 2017. ,
Hospital-based proton linear accelerator for particle therapy and radioisotope production, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 56-57, p.25, 1991. ,
, Frédéric Joliot, Irène Curie and the early history of the positron, vol.31, p.50, 2010.
Prototype time-of-flight PET ring integrated with a 3T MRI system for simultaneous whole-body PET/MR imaging, Journal of Nuclear Medicine, vol.54, p.96, 2013. ,
PET-CT: Evolving role in hadron therapy, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 261.1. The Application of Accelerators in Research and Industry, p.31, 2007. ,
Performance measurements of the SP3000/UW time-of-flight positron emission tomograph, IEEE Transactions on Nuclear Science, vol.35, issue.1, p.95, 1988. ,
CHAPTER 10-PET Systems, Emission Tomography, p.93, 2004. ,
Multiple Scattering in an Infinite Medium, Physical Review, vol.78, issue.5, p.13, 1950. ,
Mise en oeuvre d'un démonstrateur de caméra Compton pour l'imagerie en médecine nucléaire et pour le contrôle en temps réel de l'hadronthérapie à l'aide des rayonnements gamma prompts, 0199. ,
Sub-3mm spatial resolution from a large monolithic LaBr3 (Ce) scintillator, Current Directions in Biomedical Engineering, vol.3, issue.2, p.89, 2017. ,
On-line monitoring and PET imaging of proton radiotherapy beams, IEEE Conference on Nuclear Science Symposium and Medical Imaging, p.70, 1992. ,
On-line monitoring of radiotherapy beams: experimental results with proton beams, In: Medical Physics, vol.26, p.70, 1999. ,
Development of a depth of interaction detector for ?-rays, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 459.1, pp.939-945, 2001. ,
Imaging by Injection of Accelerated Radioactive Particle Beams, IEEE Transactions on Medical Imaging, issue.2, p.69, 1984. ,
An Imaging Instrument for Positron Emitting Heavy Ion Beam Injection, IEEE Transactions on Nuclear Science, vol.26, p.68, 1979. ,
Characterization of fragmented heavy-ion beams using a three-stage telescope detector: measurements of 670-MeV/amu 20Ne beams, In: Medical Physics, vol.17, p.17, 1990. ,
On-line characterization of heavyion beams with semiconductor detectors, In: Medical Physics, vol.11, issue.3, p.17, 1984. ,
Detector characterization and first coincidence tests of a Compton telescope based on LaBr3 crystals and SiPMs, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 695. New Developments in Photodetection NDIP11, p.88, 2012. ,
Results of a first demonstrator prototype of a Compton prostate probe, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 569.2. Proceedings of the 3rd International Conference on Imaging Technologies in Biomedical Sciences, pp.168-9002, 2006. ,
Last Results of a First Compton Probe Demonstrator, IEEE Transactions on Nuclear Science, vol.55, p.98, 2008. ,
First Compton telescope prototype based on continuous LaBr3-SiPM detectors, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 718. Proceedings of the 12th Pisa Meeting on Advanced Detectors, p.88, 2013. ,
First Images of a Three-Layer Compton Telescope Prototype for Treatment Monitoring in Hadron Therapy, Frontiers in Oncology, vol.6, p.88, 2016. ,
OFFSET: Optical Fiber Folded Scintillating Extended Tracker, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.737, p.41, 2014. ,
Design and characterisation of a real time proton and carbon ion radiography system based on scintillating optical fibres, Physica Medica, vol.32, p.41, 2016. ,
Non-random distribution of DNA doublestrand breaks induced by particle irradiation, International Journal of Radiation Biology, vol.70, p.19, 1996. ,
Biological effects and therapeutic possibilities of neutrons, American Journal on Roentgenology Radium Therapy, vol.36, issue.1, p.22, 1936. ,
Low Statistics Reconstruction of the Compton Camera Point Spread Function in 3D Prompt-gamma Imaging of Ion Beam Therapy, IEEE Transactions on Nuclear Science, vol.60, issue.5, pp.18-9499, 0200. ,
URL : https://hal.archives-ouvertes.fr/hal-00872700
Charged Particle Therapy: The Physics of Interaction, The Cancer Journal, vol.15, 2009. ,
Intensity modulated proton therapy: a clinical example, In: Medical Physics, vol.28, p.37, 2001. ,
A point dose method for in vivo range verification in proton therapy, Physics in Medicine & Biology, vol.53, p.44, 2008. ,
A potential method for in vivo range verification in proton therapy treatment, Physics in Medicine & Biology, vol.53, p.44, 2008. ,
Investigation of an implantable dosimeter for single-point water equivalent path length verification in proton therapy, In: Medical Physics, vol.37, p.44, 2010. ,
Relative biological effectiveness in proton beam therapy-Current knowledge and future challenges, Clinical and Translational Radiation Oncology 9, p.33, 2018. ,
Fragmentation of High-Energy Oxygen-Ion Beams in Water, Radiation Research 60.3, p.17, 1974. ,
Evaluation of a stochastic reconstruction algorithm for use in Compton camera imaging and beam range verification from secondary gamma emission during proton therapy, Physics in Medicine & Biology, vol.57, p.101, 2012. ,
The effects of Doppler broadening and detector resolution on the performance of three-stage Compton cameras, Medical Physics 40.1, p.90, 2013. ,
Recent advances in SPECT imaging, Journal of Nuclear Medicine, vol.48, p.98, 2007. ,
Recent activities of the cyclotron laboratory in Nice, Proceedings of the 13th International Conference on Cyclotrons and their Applications, p.220, 1992. ,
Commissioning and implementation of the MEDiCYC cyclotron programme, Proceedings of the 12th International Conference on Cyclotrons and their Applications, p.220, 1989. ,
Biomechanical-based respiratory motion-compensation for 4D dose calculation during hadron therapy, 27th International Congress and Exhibition, vol.8, p.34, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00850636
, The INSIDE Project: Innovative Solutions for In-Beam Dosimetry in Hadrontherapy, vol.127, p.71, 2015.
Imaging multi-energy gamma-ray fields with a Compton scatter camera, IEEE Transactions on Nuclear Science, vol.41, p.88, 1994. ,
Influence of fragment reaction of relativistic heavy charged particles on heavy-ion radiotherapy, Physics in Medicine & Biology, vol.48, p.17, 2003. ,
Specification of Carbon Ion Dose at the National Institute of Radiological Sciences (NIRS)." eng, Journal of radiation research 48 Suppl A, p.33, 2007. ,
Spatial fragment distribution from a therapeutic pencil-like carbon beam in water, In: Physics in Medicine & Biology, vol.50, p.17, 2005. ,
Relationship between CT number and electron density, scatter angle and nuclear reaction for hadron-therapy treatment planning, Physics in Medicine & Biology, vol.43, p.31, 1998. ,
Prompt-? production of 220 MeV/u 12 C ions interacting with a PMMA target, In: Journal of Instrumentation, vol.10, p.76, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01413004
Secondary radiation measurements for particle therapy applications: prompt photons produced by 4 He, 12 C and 16 O ion beams in a PMMA target, Physics in Medicine & Biology, vol.62, p.76, 2017. ,
Advanced proton imaging in computed tomography, Radiation Protection Dosimetry, vol.166, p.40, 2015. ,
Filtered Backprojection Reconstruction and Redundancy in Compton Camera Imaging, IEEE Transactions on Image Processing 23.1, p.130, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-00977486
Analytical inversion of the Compton transform using the full set of available projections, Inverse Problems 25.9, p.101, 2009. ,
Evaluation of a multistage CdZnTe Compton camera for prompt ? imaging for proton therapy, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.785, p.90, 2015. ,
The width of margins in radiotherapy treatment plans, Physics in Medicine & Biology, vol.45, p.34, 2000. ,
Demonstration of three-dimensional imaging with a germanium Compton camera, IEEE Transactions on Nuclear Science, vol.41, pp.18-9499, 1994. ,
The synchrotron-a proposed high energy accelerator, In: Physical Review, vol.68, p.24, 1945. ,
A phenomenological relative biological effectiveness (RBE) model for proton therapy based on all published in vitro cell survival data, Physics in Medicine & Biology, vol.60, p.8399, 2015. ,
A promising new scintillator: cerium-doped lutetium oxyorthosilicate, Nuclear Instruments and Methods, vol.314, pp.168-9002, 1992. ,
Characterization of the Vereos Digital Photon Counting PET System, Journal of Nuclear Medicine, vol.56, p.96, 2015. ,
Prompt-gamma measurements for locating the dose falloff region in the proton therapy, Applied Physics Letters, vol.89, p.183517, 2006. ,
Determination of distal dose edge location by measuring right-angled prompt-gamma rays from a 38MeV proton beam, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 580.1. Proceedings of the 10 th International Symposium on Radiation Physics, p.83, 2007. ,
Development of array-type prompt gamma measurement system for in vivo range verification in proton therapy, In: Medical Physics, vol.39, p.84, 2012. ,
Washout measurement of radioisotope implanted by radioactive beams in the rabbit, Physics in Medicine & Biology, vol.48, p.65, 2003. ,
Strategies for optimizing the response of cancer and normal tissues to radiation, Nature reviews. Drug discovery, vol.12, issue.7, pp.526-542, 2013. ,
Initial Test of a Proton Radiographic System, IEEE Transactions on Nuclear Science, vol.22, pp.1749-1751, 1975. ,
Theorie der Streuung schneller geladener Teilchen II. Mehrfach-und Vielfachstreuung, Zeitschrift Naturforschung Teil A 3, p.13, 1948. ,
Study of the Influence of NanOx Parameters, Cancers 10, vol.4, p.33, 2018. ,
URL : https://hal.archives-ouvertes.fr/hal-01919767
Construction and tests of an in-beam PET-like demonstrator for hadrontherapy beam ballistic control, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, vol.845, p.72, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01571389
Timing performances of a data acquisition system for Time of Flight PET, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 695. New Developments in Photodetection NDIP11, p.71, 2012. ,
Prospects for time-of-flight PET using LSO scintillator, IEEE Transactions on Nuclear Science, vol.46, p.95, 1999. ,
Monte Carlo patient study on the comparison of prompt gamma and PET imaging for range verification in proton therapy, Physics in Medicine & Biology, vol.56, p.76, 2011. ,
Methodologies and tools for proton beam design for lung tumors, International Journal of Radiation Oncology Biology Physics, vol.49, p.36, 2001. ,
Section imaging by computer calculation, Journal of Nuclear Medicine, vol.12, p.98, 1971. ,
A unique matched quadruplet of terbium radioisotopes for PET and SPECT and for alpha-and beta-radionuclide therapy: an in vivo proof-of-concept study with a new receptor-targeted folate derivative, In: Journal of Nuclear Medicine, vol.53, p.99, 2012. ,
Proton range verification using a range probe: definition of concept and initial analysis, Physics in Medicine & Biology, vol.55, p.44, 2010. ,
Depth encoding multicrystal detectors for PET, IEEE Transactions on Nuclear Science, vol.45, p.94, 1998. ,
DOI : 10.1109/23.681994
On Estimating Regression, Theory of Probability & Its Applications 9, p.183, 1964. ,
Development of a proton Computed Tomography detector system, Journal of Instrumentation, p.41, 2016. ,
, PXI Express-NI PXIe-1082 User Manual. 372752B-01. National Instruments (cit, p.154, 2010.
Boron Neutron Capture Therapy-A Literature Review, Journal of Clinical and Diagnostic Research : JCDR 10, vol.12, p.22, 2016. ,
Bismuth Germanate: A High-Z Gamma-Ray and Charged Particle Detector, IEEE Transactions on Nuclear Science, vol.22, p.94, 1975. ,
Assessing the risk of second malignancies after modern radiotherapy, Nature Reviews Cancer, vol.11, p.18, 2011. ,
Monte Carlo simulations of the dosimetric impact of radiopaque fiducial markers for proton radiotherapy of the prostate, Physics in Medicine & Biology, vol.52, p.36, 2007. ,
Neutron shielding verification measurements and simulations for a 235-MeV proton therapy center, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 476.1. Int. Workshop on Neutron Field Spectrometry in Science, Technology and Radiation Protection, pp.168-9002, 2002. ,
The physics of proton therapy, Physics in Medicine & Biology 60.8, R155, 2015. ,
XPS-Q8 Universal High-Performance Motion Controller/Driver. v.1.4.x. Newport Corporation (cit, p.122, 2017. ,
, J-PET: a new technology for the whole-body PET imaging, p.96, 2017.
The development and clinical use of a beam ON-LINE PET system mounted on a rotating gantry port in proton therapy, In: International Journal of Radiation Oncology Biology Physics, vol.76, p.70, 2010. ,
Dose-volume delivery guided proton therapy using beam on-line PET system, In: Medical Physics, vol.33, p.70, 2006. ,
Nuclear Physics for Medicine, Strasbourg: European Science Foundation, vol.8, 2014. ,
Design criteria for a high energy Compton Camera and possible application to targeted cancer therapy, Journal of Instrumentation 10.07, p. C07018, p.197, 2015. ,
Proton dose monitoring with PET: quantitative studies in Lucite, Physics in Medicine & Biology, vol.41, p.64, 1996. ,
A liquid xenon TPC for a medical imaging Compton telescope, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 695. New Developments in Photodetection NDIP11, p.45, 2012. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00745013
The acceleration of particles to very high energies, Classified memo submitted to DSIR, p.24, 1943. ,
Doppler broadening and energy uncertainties in Compton cameras, IEEE Nucl. Sci. Symp. Conf. Rec, vol.2, pp.1361-65, 1997. ,
Noise evaluation of Compton camera imaging for proton therapy, Physics in Medicine & Biology, vol.60, issue.5, pp.1845-1863, 2015. ,
Technologies for Delivery of Proton and Ion Beams for Radiotherapy, International Journal of Modern Physics A29, p.30, 2014. ,
Proton therapy in combination with PET as monitor: a feasibility study, IEEE Transactions on Nuclear Science, vol.40, p.70, 1993. ,
Proton Therapy Physics, vol.23, p.9, 2012. ,
Range uncertainties in proton therapy and the role of Monte Carlo simulations, Physics in Medicine & Biology, vol.57, p.37, 2012. ,
Relative biological effectiveness (RBE) values for proton beam therapy. Variations as a function of biological endpoint, dose, and linear energy transfer, Physics in Medicine & Biology, vol.59, p.33, 2014. ,
Radiobiological significance of beamline dependent proton energy distributions in a spread-out Bragg peak, In: Medical Physics, vol.27, p.37, 2000. ,
Relative biological effectiveness (RBE) values for proton beam therapy, International Journal of Radiation Oncology Biology Physics, vol.53, p.33, 2002. ,
Biological Considerations When Comparing Proton Therapy With Photon Therapy, Seminars in Radiation Oncology 23, vol.2, pp.77-87, 2013. ,
Heavy ion radiography and tomography, Physica Medica 30.5. Particle Radiosurgery Conference, vol.42, p.41, 2014. ,
DOI : 10.1016/j.ejmp.2014.02.004
On-and off-line monitoring of ion beam treatment". In: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 809. Advances in detectors and applications for medicine, pp.113-119, 2015. ,
On the feasibility of dose quantification with in-beam PET data in radiotherapy with 12C and proton beams, p.65, 2018. ,
Ionoacoustics: A new direct method for range verification". In: Modern Physics Letters A 30, vol.17, p.44, 2015. ,
A filtering approach based on Gaussian-powerlaw convolutions for local PET verification of proton radiotherapy, Physics in Medicine & Biology, vol.51, p.65, 2006. ,
Comparison between in-beam and offline positron emission tomography imaging of proton and carbon ion therapeutic irradiation at synchrotron-and cyclotron-based facilities, International Journal of Radiation Oncology Biology Physics, vol.71, p.70, 2008. ,
The FLUKA code for application of Monte Carlo methods to promote high precision ion beam therapy, 12th International Conference on Nuclear Reaction Mechanisms, Villa Monastero, p.65, 2009. ,
Random coincidences during in-beam PET measurements at microbunched therapeutic Bibliography ion beams, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 545.1, p.42, 2005. ,
Patient Study of In Vivo Verification of Beam Delivery and Range, Using Positron Emission Tomography and Computed Tomography Imaging After Proton Therapy, International Journal of Radiation Oncology Biology Physics, vol.68, pp.920-934, 2007. ,
Reconstruction of cone-beam projections from Compton scattered data, IEEE Transactions on Nuclear Science, vol.47, p.101, 2000. ,
, PTCOG stats, p.170, 2017.
ScintillatorBased High-Throughput Fast Timing Spectroscopy for Real-Time Range Verification in Particle Therapy, IEEE Transactions on Nuclear Science, vol.63, p.81, 2016. ,
The investigation of different cameras for in-beam PET imaging, Physics in Medicine & Biology, vol.41, p.69, 1996. ,
PAMELA : overview and status, Proceedings of the 1st International Particle Accelerator Conference IPAC 2010, pp.112-114, 2010. ,
, The New IBA Superconducting Synchrocyclotron (S2C2): From Modelling to Reality, p.220, 2013.
The 200-MeV proton therapy project at the Paul Scherrer Institute: conceptual design and practical realization, In: Medical Physics, vol.22, p.29, 1995. ,
Experimental characterization and physical modelling of the dose distribution of scanned proton pencil beams, Physics in Medicine & Biology, vol.50, pp.541-561, 2005. ,
A detector system for proton radiography on the gantry of the Paul-Scherrer-Institute, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.432, p.41, 1999. ,
A more accurate reconstruction system matrix for quantitative proton computed tomography, In: Medical Physics, vol.36, p.41, 2009. ,
Carbon ions beam therapy monitoring with the INSIDE in-beam PET, Physics in Medicine & Biology, vol.63, p.71, 2018. ,
Prompt gamma imaging of proton pencil beams at clinical dose rate, Physics in Medicine & Biology, vol.59, p.77, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-02066358
Spill structure measurements at the Heidelberg Ion Therapy center, Proceedings of EPAC08, p.174, 2008. ,
Optimizing a three-stage Compton camera for measuring prompt gamma rays emitted during proton radiotherapy, Physics in Medicine & Biology 55, vol.22, p.90, 2010. ,
Characterization of the microbunch time structure of proton pencil beams at a clinical treatment facility, Physics in Medicine & Biology, vol.61, p.80, 2016. ,
Effects of respiratory motion on dose uniformity with a charged particle scanning method, Physics in Medicine & Biology, vol.37, p.33, 1992. ,
Measurement of charged particle yields from PMMA irradiated by a 220 MeV/u (12)C beam, Physics in Medicine & Biology, vol.59, p.43, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-01413188
Absolute prompt-gamma yield Bibliography measurements for ion beam therapy monitoring, Physics in Medicine & Biology, vol.60, issue.2, pp.74-76, 2015. ,
Design optimisation of a TOF-based collimated camera prototype for online hadrontherapy monitoring, Physics in Medicine & Biology, vol.59, p.7653, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-01115740
Assessment of Geant4 Prompt-Gamma Emission Yields in the Context of Proton Therapy Monitoring, In: Frontiers in Oncology, vol.6, p.77, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01272829
200 MeV Proton Radiography Studies with a Hand Phantom Using a Prototype Proton CT Scanner, IEEE transactions on medical imaging 33, vol.4, p.40, 2014. ,
Radiation Physics for Medical Physicists, 2010. ,
Imaging of prompt-gamma rays emitted during delivery of clinical proton beams with a Compton camera: feasibility studies for range verification, Physics in Medicine & Biology, vol.60, p.7085, 2015. ,
Measurement of characteristic prompt gamma rays emitted from oxygen and carbon in tissue-equivalent samples during proton beam irradiation, Physics in Medicine & Biology, vol.58, p.81, 2013. ,
Prompt-gamma-ray emission from biological tissues during proton irradiation: a preliminary study, Physics in Medicine & Biology, vol.54, p.81, 2009. ,
Measurement and calculation of characteristic prompt gamma ray spectra emitted during proton irradiation, Physics in Medicine & Biology, vol.54, p.81, 2009. ,
Proton radiography and tomography with application to proton therapy, In: British Journal of Radiology, vol.88, p.39, 2015. ,
DOI : 10.1259/bjr.20150134
URL : https://doi.org/10.1259/bjr.20150134
The modelling of positron emitter production and PET imaging during carbon ion therapy, Physics in Medicine & Biology, vol.49, p.65, 2004. ,
Essentials of Nuclear Medicine Physics and Instrumentation, p.49, 2013. ,
Measurement of prompt gamma profiles in inhomogeneous targets with a knife-edge slit camera during proton irradiation, Physics in Medicine & Biology, vol.60, p.4849, 2015. ,
Detection of mixed-range proton pencil beams with a prompt gamma slit camera, Physics in Medicine & Biology, vol.61, p.855, 2016. ,
Initial development of goCMC: a GPU-oriented fast cross-platform Monte Carlo engine for carbon ion therapy, Physics in Medicine & Biology, vol.62, p.77, 2017. ,
Über die Bestimmung von Funktionen durch ihre Integralwerte längs gewisser Mannigfaltigkeiten, Akademie der Wissenschaften, vol.69, p.47, 1917. ,
Development of a multi-knife-edge slit collimator for prompt gamma ray imaging during proton beam cancer therapy, p.85, 2016. ,
Prompt Gamma Imaging with a Multi-Knife-Edge Slit Collimator: Evaluation for Use in Proton Beam Range Verification, Medical Physics 43.6Part31, p.85, 2016. ,
Design study of a Compton camera for prompt-gamma imaging during ion beam therapy, p.108, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01920982
First clinical application of a prompt gamma based <em>in vivo</em> proton range verification system, Radiotherapy and Oncology, vol.118, p.85, 2016. ,
Range accuracy in carbon ion treatment planning based on CT-calibration with real tissue samples, Radiation Oncology, vol.2, pp.14-14, 2007. ,
Experimental characterization of a prototype detector system for carbon ion radiography and tomography, In: Physics in Medicine & Biology, vol.58, p.42, 2013. ,
9 Channel, 5 GSPS Switched Capacitor Array DRS4. Revision 0.9, p.116, 2009. ,
Distributions of secondary particles in proton and carbon-ion therapy: a comparison between GATE/Geant4 and FLUKA Monte Carlo codes, Physics in Medicine & Biology, vol.58, p.77, 2013. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00822629
Material efficiency studies for a Compton camera designed to measure characteristic prompt gamma rays emitted during proton beam radiotherapy, Physics in Medicine & Biology, vol.56, p.90, 2011. ,
Radiobiological studies of a high-energy modulated proton beam utilizing cultured mammalian cells, In: Cancer 35, vol.6, p.37, 1975. ,
32-crystal positron transverse section detector, p.93, 1972. ,
DOI : 10.2172/4622519
URL : https://digital.library.unt.edu/ark:/67531/metadc1035574/m2/1/high_res_d/4622519.pdf
Real-time proton beam range monitoring by means of prompt-gamma detection with a collimated camera, Physics in Medicine & Biology, vol.59, p.1327, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-00967209
Design of a Compton camera for 3D prompt-? imaging during ion beam therapy, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 648. NIMA 4th International Conference on Imaging techniques in Subatomic Physics, p.88, 2011. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00559943
An Introduction to NURBS: With Historical Perspective, p.183, 2001. ,
Testing 144-and 256-crystal BGO block detectors, IEEE Transactions on Nuclear Science 41, vol.4, p.133, 1994. ,
DOI : 10.1109/23.322926
SPRINT II: a second generation single photon ring tomograph, IEEE Transactions on Medical Imaging, p.98, 1988. ,
TOFPET ASIC for PET applications, Journal of Instrumentation 8.02, p. C02050, p.71, 2013. ,
DOI : 10.1088/1748-0221/8/02/c02050
URL : http://iopscience.iop.org/article/10.1088/1748-0221/8/02/C02050/pdf
The TOP-IMPLART project, The European Physical Journal Plus 126, vol.7, p.25, 2011. ,
DOI : 10.1140/epjp/i2011-11068-x
High-energy particles. Prentice-Hall physics, p.12, 1952. ,
A new PET prototype for proton therapy: comparison of data and Monte Carlo simulations, Journal of Instrumentation 8.03, p. C03021, p.71, 2013. ,
A novel algorithm for the calculation of physical and biological irradiation quantities in scanned ion beam therapy: the beamlet superposition approach, Physics in Medicine & Biology, vol.61, p.77, 2016. ,
The Production of Radionuclides for Radiotracers in Nuclear Medicine, Reviews of Accelerator Science and Technology, p.51, 2009. ,
Uranium radiation and the electrical conduction produced by it, Philos. Mag, vol.47, p.48, 1899. ,
The scattering of ? and ? particles by matter and the structure of the atom, Philosophical Magagazine Series 6 21, p.13, 1911. ,
Clusters of DNA damage induced by ionizing radiation: formation of short DNA fragments. II. Experimental detection, Radiation research 145, vol.2, p.19, 1996. ,
Detector development for Proton Computed Tomography (pCT), 2011 IEEE Nuclear Science Symposium Conference Record, p.41, 2011. ,
BGO Bismuth Germanate Scintillation material-Datasheet. Saint Gobain Ceramics & Plastics (cit, p.151, 2016. ,
Plastic Scintillating Fibers-Product brochure. Saint Gobain Ceramics & Plastics (cit, vol.122, p.119, 2017. ,
Compton camera prototype for ion beam therapy monitoring: characterization of the BGO scintillators and simulation of the scintillating fiber beam hodoscope, Master internship report, 2017. ,
Study of spatial resolution of proton computed tomography using a silicon strip detector, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.735, p.42, 2014. ,
GEM: A new concept for electron amplification in gas detectors, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.386, pp.168-9002, 1997. ,
Density heterogeneities and the influence of multiple Coulomb and nuclear scatterings on the Bragg peak distal edge of proton therapy beams, Physics in Medicine & Biology, vol.53, p.38, 2008. ,
The observed variance between predicted and measured radiation dose in breast and prostate patients utilizing an in vivo dosimeter, In: International Journal of Radiation Oncology Biology Physics, vol.72, p.44, 2008. ,
The PRIMA (PRoton IMAging) collaboration: Development of a proton Computed Tomography apparatus, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 730. Proceedings of the 9th International Conference on Radiation Effects on Semiconductor Materials Detectors and Devices, p.41, 2013. ,
Range precision of therapeutic proton beams, Medical Physics 25, vol.8, p.36, 1998. ,
The precision of proton range calculations in proton radiotherapy treatment planning: experimental verification of the relation between CT-HU and proton stopping power, Physics in Medicine & Biology, vol.43, p.31, 1998. ,
Charge-changing nuclear reactions of relativistic light-ion beams (5 ? Z ? 10) passing through thick absorbers, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, vol.117, pp.325-329, 1996. ,
Heavy-ion tumor therapy: Physical and radiobiological benefits, Rev. Mod. Phys, vol.82, issue.1, pp.383-425, 2010. ,
Precision Braggcurve measurements for light-ion beams in water, 2008. ,
The Fragmentation of 670A MeV Neon-20 as a Function of Depth in Water: I. Experiment, p.17, 1989. ,
Beam analysis spectrometer for relativistic heavy ions, Nuclear Instruments and Methods in Physics Research 205.3, p.17, 1983. ,
New Technologies in Radiation Oncology, Journal of Nuclear Medicine, vol.49, p.35, 2008. ,
First proton radiography of an animal patient, In: Medical Physics, vol.31, issue.5, pp.1046-51, 2004. ,
The Impact of Neutrons in Clinical Proton Therapy, In: Frontiers in Oncology, vol.5, p.235, 2015. ,
Proton radiography as a tool for quality control in proton therapy, Medical Physics, vol.22, pp.353-363, 1995. ,
The calibration of CT Hounsfield units for radiotherapy treatment planning, Physics in Medicine & Biology, vol.41, p.31, 1996. ,
Correlation between CT numbers and tissue parameters needed for Monte Carlo simulations of clinical dose distributions, Physics in Medicine & Biology 45, vol.2, p.36, 2000. ,
An Image Reconstruction Framework and Camera Prototype Aimed for Compton Imaging for In-vivo Dosimetry of Therapeutic Ion Beams, IEEE Transactions on Radiation and Plasma Medical Sciences 1.1, pp.2469-7311, 2017. ,
A common approach to image reconstruction for different applications of Compton cameras, IEEE Nuclear Science Symposuim Medical Imaging Conference, vol.180, p.101, 2010. ,
SiteSpecific Range Uncertainties Due to by Dose Calculation Algorithms for Proton Therapy, International Journal of Radiation Oncology Biology Physics, vol.90, p.36, 2014. ,
Radiation therapy with charged particles, Seminars in radiation oncology 16, vol.4, p.29, 2006. ,
Simulation and experimental verification of prompt gamma-ray emissions during proton irradiation, Physics in Medicine & Biology, vol.60, p.77, 2015. ,
Calculation of Photon Mass Energy-Transfer and Mass Energy-Absorption Coefficients, Radiation Research 136, vol.2, p.64, 1993. ,
Monte Carlo study of a double-scattering Compton camera with GEANT4, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 580.1. Proceedings of the 10 th International Symposium on Radiation Physics, pp.168-9002, 2007. ,
Development of double-scattering-type Compton camera with double-sided silicon strip detectors and NaI(Tl) scintillation detector, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol.615, pp.168-9002, 2010. ,
Experimental performance of double-scattering Compton camera with anthropomorphic phantom, Journal of Instrumentation, vol.6, p.99, 2011. ,
Nuclear Reactions at High Energies, In: Physical Review, vol.72, issue.11, p.14, 1947. ,
Patterns of Failure After Proton Therapy in Medulloblastoma; Linear Energy Transfer Distributions and Relative Biological Effectiveness Associations for Relapses, International Journal of Radiation Oncology Biology Physics, vol.88, pp.655-663, 2014. ,
Implementation and workflow for PET monitoring of therapeutic ion irradiation: a comparison of in-beam, in-room, and off-line techniques, Physics in Medicine & Biology, vol.56, p.67, 2011. ,
Fixed-Field Alternating-Gradient Accelerators, Proceedings, CAS-CERN Accelerator School: Accelerators for Medical Applications, p.24, 2015. ,
Application of heavy-ion CT, Physics in Medicine & Biology, vol.51, p.42, 2006. ,
Detection of pion-induced radioactivity by autoradiography and positron emission tomography (PET), p.68, 1989. ,
An electronically collimated gamma camera for single photon emission computed tomography. Part I: theoretical considerations and design criteria, Medical Physics 10, vol.4, pp.421-427, 0196. ,
Computer Simulation Of Image Reconstruction With A New Electronically Collimated Gamma Tomography System, Proceedings SPIE-Society of Photo-Optical Instrumentation Engineers 0273, p.98, 1981. ,
An electronically collimated gamma camera for single photon emission computed tomography. Part II: Image reconstruction and preliminary experimental measurements, In: Medical Physics, vol.10, p.98, 1983. ,
Experimental Comparison of Knife-Edge and Multi-Parallel Slit Collimators for Prompt Gamma Imaging of Proton Pencil Beams, Frontiers in Oncology, vol.6, p.85, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01457574
Prompt gamma imaging with a slit camera for real-time range control in proton therapy, Physics in Medicine & Biology, vol.57, pp.3371-405, 2012. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00709222
Performance of MACACO Compton telescope for ion-beam therapy monitoring: first test with proton beams, Physics in Medicine & Biology, vol.61, p.88, 2016. ,
In-beam PET monitoring of mono-energetic (16)O and (12)C beams: experiments and FLUKA simulations for homogeneous targets, Physics in Medicine & Biology, vol.54, p.70, 2009. ,
Application of Electron Tracking Compton Camera (ETCC) in medical imaging, 2015 IEEE Nuclear Science Symposium and Medical Imaging Conference, p.217, 2015. ,
Semiconductor Detectors Part 2, Lectures on Detector Techniques, Stanford Linear Accelerator Center, p.132, 1998. ,
First full-beam PET acquisitions in proton therapy with a modular dual-head dedicated system, Physics in Medicine & Biology, vol.59, p.71, 2014. ,
CyberKnife: The cutting edge technology in precision surgery, SRM Journal of, p.29, 2015. ,
Mapping of RBE-Weighted Doses Between HIMAC-and LEM-Based Treatment Planning Systems for Carbon IonvTherapy, International Journal of Radiation Oncology Biology Physics, vol.84, p.33, 2012. ,
Analytical computation of prompt gamma ray emission and detection for proton range verification, Physics in Medicine & Biology, vol.60, p.77, 2015. ,
Proton Beam radiography in tumor detection, Science, vol.179, p.39, 1973. ,
Verification of the proton beam position in the patient by the detection of prompt gamma-ray emission, Proceedings of the 39th Meeting of the Particle Therapy Co-Operative Group, 2003. ,
Neutron therapy and specific ionization, The American journal of roentgenology and radium therapy 59, vol.6, p.22, 1948. ,
A Preliminary Report on the Use of Fast Neutrons in the Treatment of Malignant Disease, Radiology 35.3, p.22, 1940. ,
Phase 3 Trial of (177)Lu-Dotatate for Midgut Neuroendocrine Tumors, New England Journal of Medicine, vol.376, p.99, 2017. ,
Proton vs carbon ion beams in the definitive radiation treatment of cancer patients, Radiotherapy and Oncology, vol.95, p.32, 2010. ,
Brachytherapy: Physical and clinical aspects, Radiation Oncology Physics: A Handbook for Teachers and Students, p.48, 2005. ,
Advances in time-of-flight PET, Physica Medica, vol.32, p.96, 2016. ,
DOI : 10.1016/j.ejmp.2015.12.007
URL : http://europepmc.org/articles/pmc4747834?pdf=render
Performance of Philips Gemini TF PET/CT scanner with special consideration for its time-of-flight imaging capabilities, In: Journal of Nuclear Medicine, vol.48, p.68, 2007. ,
Design Study of an In-Situ PET Scanner for Use in Proton Beam Therapy, Physics in Medicine & Biology, vol.56, p.67, 2011. ,
Three-dimensional and multienergy gamma-ray simultaneous imaging by using a Si/CdTe Compton camera, p.98, 2013. ,
DOI : 10.1148/radiol.13121194
The Uses of Nuclear Disintegration in the Diagnosis and Treatment of Brain Tumor, New England Journal of Medicine, p.93, 1951. ,
Time resolved properties of acoustic pulses generated in water and in soft tissue by pulsed proton beam irradiation-a possibility of doses distribution monitoring in proton radiation therapy, In: Medical Physics, vol.18, p.44, 1991. ,
Laser Acceleration of Ions for Radiation Therapy, Reviews of Accelerator Science and Technology, p.25, 2009. ,
DOI : 10.1142/9789814299350_0010
Observation of Diffuse Cosmic and Atmospheric Gamma Rays at Balloon Altitudes with an Electron-tracking Compton Camera, The Astrophysical Journal, vol.733, p.91, 2011. ,
DOI : 10.1088/0004-637x/733/1/13
URL : http://iopscience.iop.org/article/10.1088/0004-637X/733/1/13/pdf
Experimental Results of the Gamma-Ray Imaging Capability With a Si/CdTe Semiconductor Compton Camera, IEEE Transactions on Nuclear Science, vol.56, p.98, 2009. ,
A new Si/CdTe semiconductor Compton camera developed for high-angular resolution, Proceedings SPIE-Society of Photo-Optical Instrumentation Engineers, p.98, 2007. ,
DOI : 10.1117/12.733840
Demonstration of in-vivo Multi-Probe Tracker Based on a Si/CdTe Semiconductor Compton Camera, IEEE Transactions on Nuclear Science, vol.59, issue.1, p.98, 2012. ,
Double-sided silicon strip detector for x-ray imaging". In: SPIE-Society of PhotoOptical Instrumentation Engineers-Newsroom (cit, p.109, 2008. ,
DOI : 10.1117/2.1200802.0889
A single-ring OpenPET enabling PET imaging during radiotherapy, Physics in Medicine & Biology, vol.57, p.68, 2012. ,
DOI : 10.1088/0031-9155/57/14/4705
Development of a small single-ring OpenPET prototype with a novel transformable architecture, Physics in Medicine & Biology, vol.61, p.70, 2016. ,
First demonstration of real-time gamma imaging by using a handheld Compton camera for particle therapy, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 831. Proceedings of the 10th International "Hiroshima" Symposium on the Development and Application of Semiconductor Tracking Detectors, p.88, 2016. ,
DOI : 10.1016/j.nima.2016.04.028
Optimization and verification of image reconstruction for a Compton camera towards application as an on-line monitor for particle therapy, Journal of Instrumentation, vol.12, p.101, 2017. ,
Proton tracking for medical imaging and dosimetry, In: Journal of Instrumentation, vol.10, p.42, 2015. ,
An experimental demonstration of a new type of proton computed tomography using a novel silicon tracking detector, In: Medical Physics, vol.43, p.42, 2016. ,
Quantitative carbon ion beam radiography and tomography with a flat-panel detector, Physics in Medicine & Biology, vol.57, p.42, 2012. ,
Positron Emission Tomography (PET), Diagnostic Imaging in Medicine, p.47, 1983. ,
Super PETT I: A Positron Emission Tomograph Utilizing Photon Time-of-Flight Information, IEEE Transactions on Medical Imaging, vol.1, issue.3, p.95, 1982. ,
A positronemission transaxial tomograph for nuclear imaging (PETT), p.47, 1975. ,
SFP HSMC Terasic Board User Manual. Revision 1. Terasic Technologies Inc. (cit, p.117, 2009. ,
SoCKit User Manual. Revision F. Terasic Technologies Inc. (cit, p.117, 2015. ,
Dose profile monitoring with carbon ions by means of prompt-gamma measurements, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 267.6. Proceedings of the Seventh International Symposium on Swift Heavy Ions in Matter, p.83, 2009. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00408905
Monitoring the Bragg peak location of 73 MeV/u carbon ions by means of prompt ?-ray measurements, Applied Physics Letters, vol.93, p.93506, 2008. ,
URL : https://hal.archives-ouvertes.fr/hal-01920991
Real-time monitoring of the Bragg-peak position in ion therapy by means of single photon detection, Radiation and environmental biophysics, vol.49, pp.337-343, 2010. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00447558
A Compton camera prototype for prompt gamma medical imaging, EPJ Web of Conferences, vol.117, p.5005, 2016. ,
Degradation of target coverage due to inter-fraction motion during intensitymodulated proton therapy of prostate and elective targets, Acta Oncologica, vol.52, p.33, 2013. ,
The global burden of cancer: priorities for prevention, Carcinogenesis 31.1, pp.100-110, 2010. ,
Particle radiography and autoactivation, International Journal of Radiation Oncology Biology Physics 3. Particles and Radiation Therapy Second International Conference, p.39, 1977. ,
Molecular and cellular radiobiology of heavy ions, International Journal of Radiation Oncology Biology, 1982. ,
Radioactive fragmentation of N7+ ion beam observed in a beryllium target, Physics Letters A, vol.37, issue.2, p.69, 1971. ,
, Pituitary Irradiation with High-Energy Proton Beams. A Preliminary Report, vol.2, pp.121-134, 1958.
, Irradiation Hypophysectomy and related studies using 340 MeV protons an, p.190, 1955.
, MeV deuterons
A proposed ? camera, Nature, vol.251, p.86, 1974. ,
Timeresolved diode dosimetry calibration through Monte Carlo modeling for in vivo passive scattered proton therapy range verification, In: Journal of Applied Clinical Medical Physics, vol.18, p.44, 2017. ,
Washout studies of 11C in rabbit thigh muscle implanted by secondary beams of HIMAC, Physics in Medicine & Biology, vol.48, p.65, 2003. ,
Positioning and energy response of PET block detectors with different light sharing schemes, IEEE Transactions on Nuclear Science 41, vol.4, p.133, 1994. ,
Pair Production and Bremsstrahlung of Charged Leptons, Review of Modern Physics, vol.46, p.13, 1974. ,
Robust Proton Treatment Planning: Physical and Biological Optimization". In: Seminars in Radiation Oncology 28.2. Proton Radiation Therapy, p.33, 2018. ,
Spot Scanning Using Radioactive 11 C Beams for Heavy-Ion Radiotherapy, Japanese Journal of Applied Physics, vol.40, p.69, 2001. ,
Signal characteristics of individual crystals in high resolution BGO detector designs using PMT-quadrant sharing, IEEE Transactions on Nuclear Science, vol.50, p.151, 2003. ,
Degradation of the Bragg peak due to inhomogeneities, Physics in Medicine & Biology, vol.31, p.36, 1986. ,
Comparison of Biological Effectiveness of Carbon-Ion Beams in Japan and Germany, International Journal of Radiation Oncology Biology Physics, vol.73, p.33, 2008. ,
Test d'un hodoscope de faisceau à fibres scintillantes, Master internship report, vol.166, p.157, 2016. ,
Recent developments in time-of-flight PET, EJNMMI Physics, vol.3, p.65, 2016. ,
Positron Emission Tomography: Current Challenges and Opportunities for Technological Advances in Clinical and Preclinical Imaging Systems, In: Annual Review of Biomedical Engineering, vol.17, pp.385-414, 2015. ,
Ionization losses of high-energy heavy particles, Zh. Eksp. Teor. Fiz, vol.5, p.12, 1957. ,
A PET Prototype for "In-Beam" Monitoring of Proton Therapy, IEEE Transactions on Nuclear Science, vol.56, issue.1, p.71, 2009. ,
In: Comptes Rendus (Dokaldy) de l'Academie Sciences de l'URSS 43, vol.8, p.23, 1944. ,
Energy-and time-resolved detection of prompt gamma-rays for proton range verification, Physics in Medicine & Biology, vol.58, p.81, 2013. ,
Proton range verification through prompt gamma-ray spectroscopy, Physics in Medicine & Biology, vol.59, p.81, 2014. ,
Simulation of prompt gamma-ray emission during proton radiotherapy, Physics in Medicine & Biology, vol.57, p.77, 2012. ,
Control of patient positioning for fast neutron therapy using positron emission tomography, In: British Journal of Radiology, vol.62, p.68, 1989. ,
, Smooth Regression Analysis". In: Sankhy¯ a: The Indian Journal of Statistics, Series A, vol.4, p.183, 1961.
A proton range telescope for quality assurance in hadrontherapy, 2009 IEEE Nuclear Science Symposium Conference Record (NSS/MIC), p.44, 2009. ,
The use of multi-gap resistive plate chambers for in-beam PET in proton and carbon ion therapy, Journal of Radiation Research, vol.54, p.72, 2013. ,
The contribution, history, impact and future of physics in medicine, Acta Oncologica, vol.48, pp.169-177, 2009. ,
Luminescence of Bi4 Ge3 O12 : Spectral and decay properties, Journal of Applied Physics, vol.44, p.94, 1973. ,
, Statistics and Nuclear Reactions". In: Physical Review, vol.52, issue.4, p.14, 1937.
Products brochure. rev, p.131, 2017. ,
RBE for carbon track-segment irradiation in cell lines of differing repair capacity". eng, International journal of radiation biology, vol.75, p.170, 1999. ,
Über ein neues Prinzip zur Herstellung hoher Spannungen, Archiv für Elektrotechnik 21, vol.4, p.22, 1928. ,
List-mode maximum likelihood reconstruction of Compton scatter camera images in nuclear medicine, 1998 IEEE Nuclear Science Symposium Conference Record. 1998 IEEE Nuclear Science Symposium and Medical Imaging Conference (Cat. No.98CH36255), vol.3, pp.1082-3654, 1998. ,
Direct comparison of biologically optimized spread-out bragg peaks for protons and carbon ions, In: International Journal of Radiation Oncology Biology Physics, vol.70, pp.262-266, 2008. ,
Toward A variable RBE for proton beam therapy, Radiotherapy and Oncology, vol.128, p.33, 2018. ,
A brief history of the Harvard cyclotrons, p.23, 2004. ,
Radiological Use of Fast Protons, Radiology 47.5. PMID: 20274616, pp.487-491, 1946. ,
Evaluation of Stopping-Power Prediction by Dual-and Single-Energy Computed Tomography in an Anthropomorphic Ground-Truth Phantom, International Journal of Radiation Oncology Biology Physics, vol.100, p.36, 2018. ,
Measurements of relative biological effectiveness of the 70 MeV proton beam at TRIUMF using Chinese hamster V79 cells and the high-precision cell sorter assay, Radiation Research, vol.146, p.37, 1996. ,
The Use of Positron-emitting Radioisotopes for the Localization of Brain Tumors, Science 113.2940, p.93, 1951. ,
The role of nonelastic reactions in absorbed dose distributions from therapeutic proton beams in different medium, Medical Physics 32.1, p.17, 2005. ,
Prompt Gamma Imaging for In-Vivo Range Verification of Pencil Beam Scanning Proton Therapy, International Journal of Radiation Oncology Biology Physics, issue.1, p.85, 2017. ,
Imaging of monochromatic beams by measuring secondary electron bremsstrahlung for carbon-ion therapy using a pinhole x-ray camera, Physics in Medicine & Biology, vol.63, p.45, 2018. ,
Beam range estimation by measuring bremsstrahlung, Physics in Medicine & Biology, vol.57, p.45, 2012. ,
OpenPET: a novel open-type PET system for 3D dose verification in particle therapy, In: Journal of Physics: Conference Series, vol.777, p.68, 2017. ,
Development of the OpenPET for in-beam carbon ion therapy imaging, MediNet collaboration Midterm meeting-Belgrade, 2018. ,
A proposal of an open PET geometry, Physics in Medicine & Biology, vol.53, p.68, 2008. ,
Imaging simulations of an "OpenPET" geometry with shifting detector rings, Radiological Physics and Technology, vol.2, issue.1, p.70, 2009. ,
Whole gamma imaging (WGI) concept: simulation study of triple-gamma imaging, Journal of Nuclear Medicine, vol.58, p.45, 2017. ,
Measurement of neutron dose equivalent to proton therapy patients outside of the proton radiation field, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 476.1. Int. Workshop on Neutron Field Spectrometry in Science, Technology and Radiation Protection, pp.168-9002, 2002. ,
Theoretical variance analysis of single-and dual-energy computed tomography methods for calculating proton stopping power ratios of biological tissues, Physics in Medicine & Biology, vol.55, p.31, 2010. ,
Theranostics in nuclear medicine practice, OncoTargets and therapy, vol.10, p.52, 2017. ,
Development of electron-tracking Compton imaging system with 30-?m SOI pixel sensor, Journal of Instrumentation, vol.12, p.89, 2017. ,
, Photon Emission Computed Tomography". In: Emission Tomography, pp.127-152, 2004.
Monitoring proton radiation therapy with in-room PET imaging, Physics in Medicine & Biology, vol.56, p.70, 2011. ,
Proton Therapy Verification with PET Imaging, Theranostics 3.10, p.69, 2013. ,
MEGAlib The Medium Energy Gammaray Astronomy Library, New Astronomy Reviews, vol.50, pp.629-632, 0200. ,
Design, implementation, and optimization of MEGAlib's image reconstruction tool Mimrec, vol.180, p.101, 2011. ,
Development of the Dielectric Wall Accelerator, Proceedings, 4th International Particle Accelerator Conference, p.25, 2013. ,
, , vol.342
, , p.298
, , p.312
, , p.303
, , vol.42, p.283
, , vol.124, p.309
, , p.323
, , p.307
, , vol.113, p.290
, , p.334
, , vol.43, p.283
, , vol.342
, , p.314
, , p.333
, , vol.36, p.283
, , p.337
, , vol.303, p.310
, , p.310
, , p.316
, , p.284
, , p.284
, , p.284
, , p.310
, , vol.34, p.283
, , vol.89, p.337
, , p.299
, , p.319
, , vol.209, p.284
, , p.298
, , p.341
, , vol.325, p.336
, , p.336
, , vol.99, p.284
, , vol.291, p.321
, , vol.291, p.337
, , p.284
, , vol.111, p.284
, , vol.99, p.284
, , vol.294, p.340
, , p.306
, , p.318
, , p.305
, , p.343
, , p.331
, , p.322
, , vol.318, p.341
, , vol.291, p.327
, , p.313
, , vol.101, p.285
, , p.343
, , vol.291, p.309
, , vol.46, p.338
, , vol.288, p.329
, , vol.25, p.285
, , vol.334, p.335
, , p.301
, , vol.342
, , vol.334, p.341
, , p.287
, , vol.20, p.285
, , p.323
, Aspen Aerogels, vol.111, p.285
, , vol.311, p.322
, , p.319
, , p.321
, , vol.71, p.339
, , vol.288, p.328
, , p.317
, , p.285
, , vol.325, p.341
, , p.338
, , p.315
, , p.327
, , vol.283, p.337
, , p.295
, , p.316
, , p.323
, , p.338
, , vol.324, p.337
, , p.336
, , p.312
, , p.309
, , p.287
, , p.289
, , p.284
, , p.326
, , p.323
, , p.296
, , vol.299, p.314
, , vol.22, p.286
, , vol.305, p.328
, , p.333
, , p.328
, , vol.7, p.286
, , vol.101, p.286
, , p.293
, , vol.283, p.328
, , p.297
, , vol.67, p.299
, , vol.99, p.334
, , p.326
, , vol.36, p.286
, , p.323
, , p.286
, , p.312
, , p.301
, , vol.294, p.327
, , vol.38, p.286
, , p.285
, , p.289
, , p.293
, , vol.333, p.339
, , vol.8, p.286
, , vol.283, p.290
, , vol.19, p.287
, , vol.283, p.324
, , p.299
, , p.328
, , vol.327, p.333
, , vol.42, p.287
, , p.334
, , p.341
, , p.337
, , p.337
, , vol.7, p.287
, , vol.40, p.303
, , p.310
, , vol.60, p.299
, , p.307
, , p.334
, , p.313
, , p.297
, , p.284
, , vol.33, p.300
, , vol.303, p.323
, , vol.14, p.287
, , vol.300, p.328
, , p.298
, , vol.324, p.330
, , p.307
, , vol.10, p.287
, , vol.293, p.318
, , p.329
, , vol.198, p.287
, , p.320
, , p.284
, , p.312
, , vol.8, p.287
, , vol.294, p.303
, , p.312
, , vol.316, p.324
, , p.291
, , p.317
, , vol.38, p.288
, , p.316
, , vol.71, p.324
, , vol.44, p.329
, , vol.46, p.288
, , vol.288, p.337
, , vol.323, p.324
, , p.319
, , p.323
, , vol.10, p.288
, , p.286
, , p.295
, , vol.314, p.324
, , p.324
, , p.343
, , vol.77, p.299
, , vol.12, p.288
, , p.323
, , p.319
, , p.340
, , p.329
, , p.321
, , p.283
, , vol.48, p.288
, , vol.84, p.289
, , vol.324, p.326
, , vol.298, p.314
, , p.292
, , vol.298, p.314
, , p.284
, , p.296
, , p.318
, , p.340
, , p.338
, , vol.296, p.343
, , p.337
, , p.298
, , vol.13, p.289
, , p.307
, , p.298
, , p.328
, , p.291
, , vol.22, p.289
, , vol.297, p.332
, , vol.8, p.289
, , vol.7, p.289
, , vol.290, p.294
, , p.315
, , vol.17, p.289
, , vol.134, p.290
, , p.329
, , p.321
, , vol.113, p.290
, , p.300
, , vol.295, p.330
, , p.312
, , vol.302, p.343
, , vol.136, p.290
, , vol.163, p.290
, , p.329
, , p.290
, , vol.39, p.290
, , vol.303, p.329
, , p.328
, , p.291
, , vol.71, p.294
, , vol.342
, , p.313
, , p.305
, , p.318
, , p.333
, , p.319
, , p.334
, , vol.302, p.327
, , p.323
, , p.299
, , p.313
, , p.328
, , vol.124, p.309
, , p.313
, , vol.285, p.339
, , vol.71, p.333
, , vol.72, p.291
, , p.324
, , p.299
, , vol.6, p.291
, , p.334
, , p.309
, , vol.25, p.291
, , p.337
, , vol.308, p.328
, , p.312
, , vol.17, p.291
, , p.328
, , p.329
, , p.286
, , p.332
, , p.315
, , p.304
, , p.336
, , p.292
, , p.337
, , p.328
, , vol.21, p.337
, , vol.22, p.291
, , p.299
, , vol.290, p.315
, , vol.208, p.291
, , p.324
, , vol.324, p.332
, , p.285
, , vol.305, p.337
, , vol.288, p.324
, , vol.288, p.333
, , p.318
, , p.297
, , p.287
, , p.305
, , p.288
, , p.321
, , vol.284, p.340
, , p.334
, , vol.68, p.338
, , p.291
, , vol.302, p.315
, , p.339
, , vol.294
, , p.321
, , vol.111, p.309
, , p.291
, , vol.94, p.291
, , p.313
, , vol.93, p.292
, , vol.289, p.337
, , p.327
, , p.327
, , vol.39, p.292
, , p.299
, , p.311
, , vol.36, p.292
, , p.325
, , p.284
, , p.315
, , p.313
, , vol.296, p.328
, , vol.71, p.339
, , p.328
, , p.329
, , p.334
, , vol.342
, , p.324
, , vol.301, p.340
, , p.323
, , p.307
, , p.286
, , vol.302, p.343
, , p.328
, , vol.288, p.315
, , p.289
, , vol.161, p.292
, , vol.283, p.324
, , p.318
, , vol.285, p.298
, , vol.309, p.318
, , p.286
, , p.303
, , vol.58, p.292
, , p.318
, , p.285
, , vol.297, p.327
, , vol.39, p.292
, , p.314
, , vol.289, p.324
, , vol.39, p.292
, , p.298
, , p.341
, , vol.315, p.318
, , vol.156, p.292
, , p.315
, , p.287
, , vol.319, p.328
, , p.299
, , vol.284, p.301
, , vol.97, p.292
, , vol.101, p.292
, , p.284
, , p.313
, , vol.67, p.322
, , p.298
, , p.337
, , p.284
, , vol.33, p.318
, , p.320
, , vol.48, p.293
, , p.293
, , vol.288, p.337
, , p.298
, , p.289
, , p.321
, , vol.283, p.339
, , p.320
, , p.328
, , p.339
, , vol.286, p.343
, , vol.48, p.293
, , vol.110, p.309
, , vol.89, p.293
, , vol.306, p.334
, , vol.43, p.337
, , p.284
, , vol.283, p.324
, , p.291
, , p.284
, , p.283
, , p.298
, , vol.309, p.324
, , vol.286, p.305
, , vol.77, p.337
, , vol.72, p.294
, , vol.22, p.294
, , p.333
, , vol.333, p.339
, , p.290
, , p.337
, , vol.323, p.334
, , p.297
, , p.312
, , vol.324, p.330
, , p.334
, , vol.71, p.333
, , vol.119, p.309
, , p.319
, , p.305
, , vol.6, p.294
, , p.300
, , p.305
, , p.320
, , p.283
, , vol.285, p.339
, , vol.290, p.294
, , p.327
, , p.300
, , p.316
, , p.290
, , p.341
, , p.296
, , vol.295, p.342
, , p.321
, , p.318
, , p.332
, , p.319
, , vol.294
, , p.288
, , vol.37, p.331
, , vol.171, p.294
, , p.303
, , p.333
, , vol.6, p.294
, , p.320
, , vol.60, p.295
, , p.341
, , vol.12, p.333, 2022.
, , p.290
, , p.321
, , p.303
, , vol.74, p.295
, , p.319
, , p.323
, , p.323
, , p.310
, , p.314
, , p.322
, , p.310
, , p.297
, , vol.296, p.343
, , vol.77, p.295
, , p.334
, , p.300
, , vol.113, p.295
, , vol.170, p.339
, , p.316
, , vol.33, p.308
, , vol.69, pp.331-333
, , p.335
, , vol.342
, , vol.319, p.328
, , p.289
, , p.334
, , vol.36, p.343
, , p.336
, , p.310
, , vol.44, p.296
, , vol.342
, , p.320
, , p.314
, , vol.325, p.336
, , vol.6, p.296
, , vol.296, p.338
, , vol.283, p.324
, , p.343
, , p.315
, , p.291
, , vol.37, p.296
, , p.310
, , vol.342
, , p.325
, , p.323
, , vol.14, p.296
, , vol.288, p.333
, , p.329
, , vol.71, p.324
, , vol.290, p.333
, , vol.283, p.324
, , p.340
, , p.336
, , vol.299, p.337
, , p.291
, , p.315
, , vol.44, p.297
, , vol.283, p.324
, , vol.288, p.324
, , vol.324, p.333
, , p.323
, , p.334
, , p.296
, , p.327
, , vol.89, p.329
, , p.289
, , p.320
, , vol.6, p.297
, , p.318
, , p.319
, , p.285
, , p.318
, , vol.33, p.297
, , p.285
, , p.304
, , vol.294
, , vol.315, p.316
, , vol.17, p.297
, , vol.89, p.317
, , vol.293, p.337
, , p.299
, , vol.17, p.298
, , vol.7, p.333
, , p.333
, , p.285
, , vol.296, p.323
, , p.328
, , p.341
, , p.305
, , p.283
, , p.305
, , p.335
, , p.316
, , p.318
, , vol.305, p.342
, , vol.308, p.339
, , p.328
, , vol.283, p.338
, , p.330
, , p.287
, , p.332
, , vol.154, p.298
, , p.324
, , p.320
, , p.298
, , vol.164, p.298
, , vol.41, p.314
, , p.343
, , vol.342
, , p.341
, , p.323
, , vol.68, p.298
, , p.284
, , p.284
283 GE Healthcare, vol.202, p.298 ,
, , vol.154, p.298
, , vol.296, p.330
, , vol.44, p.298
, , vol.99, p.299
, , p.338
, , vol.283, p.337
, , p.334
, , p.322
, , p.328
, , p.284
, , p.301
, , p.305
, , vol.21, p.332
, , vol.101, p.333
, , vol.325, p.327
, , p.296
, , vol.21, p.299
, , p.284
, , vol.288, p.315
, , p.316
, , p.312
, , vol.284, p.340
, , vol.294
, , vol.283, p.314
, , vol.303, p.339
, , p.287
, , p.334
, , vol.74, p.337
, , vol.17, p.299
, , vol.328
, , p.341
, , p.287
, , vol.42, p.332
, , p.326
, , p.298
, , p.320
, , p.316
, , p.329
, , vol.13, p.303
, , p.287
, , p.294
, , vol.34, p.300
, , p.334
, , p.301
, , p.298
, , vol.17, p.331
, , p.337
, , p.336
, , vol.304, p.341
, , vol.76, p.300
, , p.317
, , p.332
, , vol.300, p.341
, , vol.314, p.323
, , p.330
, , p.290
, , p.333
, , vol.21, p.300
, , p.288
, , p.318
, , p.289
, , p.327
, , p.318
, , p.286
, , vol.97, p.300
, , vol.18, p.301
, , p.333
, , p.287
, , vol.43, p.301
, , vol.14, p.304
, , vol.291, p.309
, , p.289
, , vol.29, p.326
, , p.290
, , vol.311, p.335
, , p.290
, , p.321
, , vol.16, p.301
, , vol.284, p.340
, , vol.19, p.334
, , p.334
, , vol.7, p.301
, , vol.119, p.301
, , vol.25, p.343
, , vol.215, p.301
, , p.307
, , vol.308, p.338
, , p.341
, , p.335
, , vol.312, p.332
, , p.299
, , p.301
, , p.305
, , p.319
, , vol.323, p.325
, , p.297
, , p.317
, , vol.306, p.335
, , vol.44, p.335
, , p.317
, , p.298
, , p.319
, , p.307
, , vol.294
, , p.307
, , p.303
, , p.296
, , vol.324, p.337
, , vol.49, p.302
, , p.334
, , p.337
, , vol.43, p.337
, , vol.311, p.324
, , vol.220, p.315
, , p.331
, , p.310
, , vol.286, p.287
, , p.317
, , p.287
, , vol.62, p.302
, , vol.99, p.302
, , vol.99, p.302
, , p.309
, , vol.25, p.343
, , p.311
, , p.320
, , p.316
, , p.310
, , p.303
, , vol.13, p.302
, , vol.101, p.302
, , p.323
, , p.295
, , p.288
, , vol.101, p.302
, , p.338
, , p.339
, , p.335
, , p.290
, , vol.70, p.310
, , p.334
, , p.338
, , p.318
, , vol.47, p.338
, , p.324
, , p.319
, , p.321
, , vol.19, p.339
, , vol.35, p.303
, , p.313
, , p.336
, , p.308
, , vol.301, p.335
, , p.298
, , vol.326, p.341
, , p.330
, , p.337
, , vol.70, p.303
, , p.320
, , vol.302, p.343
, , vol.101, p.303
, , p.305
, , vol.203, p.303
, , vol.80, p.337
, , vol.283, p.319
, , p.338
, , p.301
, , vol.77, p.304
, , p.287
, , vol.305, p.328
, , p.312
, , p.337
, , p.330
, , vol.36, p.304
, , p.295
, , p.287
, , vol.283, p.324
, , p.302
333 ICRU, xix, vol.19, p.304 ,
, , vol.94, p.304
, , vol.285, p.340
, , p.297
, , vol.283, p.335
, , vol.335, p.342
, , vol.31, p.342
, , p.297
, , p.303
, , p.318
, , p.318
, , p.330
, , vol.69, p.338
, , p.319
, , p.318
, , vol.334, p.335
, , p.297
, , p.310
, , p.336
, , p.301
, , p.338
, , vol.30, p.305
, , p.329
, , vol.36, p.336
, , p.334
, , p.313
, , p.305
, , p.301
, , p.303
, , vol.303, p.341
, , p.330
, , p.320
, , vol.98, p.305
, , vol.6, p.337
, , vol.299, p.326
, , p.299
, , p.326
, , p.319
, , vol.40, p.328
, , p.310
, , p.319
, , p.334
, , vol.38, p.310
, , vol.296, p.332
, , p.306
, , p.334
, , vol.87, p.310
, , p.336
, , p.335
, , vol.91, p.335
, , vol.286, p.327
, , vol.99, p.334
, , vol.342
, , p.309
, , vol.293, p.337
, , p.313
, , vol.18, p.324
, , p.289
, , vol.299, p.333
, , p.298
, , p.315
, , p.307
, , vol.342
, , vol.299, p.341
, , vol.309, p.318
, , p.321
, , p.285
, , vol.285, p.339
, , vol.12, p.310
, , vol.66, p.310
, , vol.45, p.337
, , p.287
, , vol.23, p.311
, , vol.98, p.311
, , p.332
, , p.323
, , p.317
, , p.298
, , vol.22, p.311
, , vol.334, p.338
, , vol.289, p.337
, , p.290
, , p.325
, , p.289
, , p.334
, , vol.96, p.311
, , vol.307, p.331
, , vol.42, p.311
, , p.307
, , vol.90, p.318
, , p.331
, , vol.307, p.320
, , p.312
, , p.303
, , p.318
, , p.307
, , p.307
, , vol.44, p.311
, , p.307
, , p.321
, , vol.25, p.311
, , p.323
, , p.307
, , vol.50, p.311
, , vol.298, p.314
, , p.321
, , vol.309, p.327
, , p.291
, , vol.302, p.343
, , vol.96, p.312
, , p.287
, , vol.31, p.312
, , vol.95, p.312
, , vol.13, p.312
, , vol.109, p.314
, , p.338
, , p.308
, , p.303
, , p.315
, , p.310
, , vol.298, p.343
, , p.311
, , p.341
, , p.313
, , vol.314, p.323
, , p.300
, , p.312
, , vol.89, p.337
, , p.327
, , vol.70, p.312
, , p.315
, , p.303
, , vol.94, p.312
, , p.338
, , p.311
, , vol.17, p.313
, , vol.88, p.333
, , p.292
, , vol.41, p.329
, , vol.19, p.314
, , vol.22, p.314
, , vol.295, p.323
, , p.293
, , p.292
, , vol.101, p.314
, , vol.8, p.330
, , vol.298, p.314
, , p.334
, , p.290
, , p.338
, , vol.294
, , vol.44, p.338
, , p.292
, , p.343
, , p.330
, , p.341
, , p.337
, , p.300
, , vol.33, p.315
, , p.297
, , p.341
, , vol.294
, , p.285
, , p.290
, , p.285
, , p.325
, , vol.17, p.315
, , p.332
, , p.328
, , p.323
, , p.321
, , vol.90, p.325
, , p.298
, , vol.98, p.315
, , vol.296, p.330
, , p.307
, , vol.309, p.318
, , p.284
, , vol.283, p.337
, , vol.288, p.328
, , vol.284, p.340
, , p.332
, , p.316
, , p.285
, , vol.220, p.315
, , vol.34, p.315
, , vol.296, p.323
, , p.336
, , p.317
, , vol.288, p.315
, , p.336
, , p.297
, , vol.71, p.324
, , p.312
, , vol.298, p.318
, , p.328
, , p.328
, , vol.315, p.328
, , vol.283, p.337
, , p.327
, , p.295
, , p.318
, , vol.88, p.316
, , vol.309, p.318
, , p.299
, , p.328
, , vol.301, p.336
, , p.290
, , vol.315, p.318
, , p.284
, , vol.315, p.318
, , vol.293, p.309
, , vol.17, p.316
, , p.339
, , p.333
, , p.318
, , p.338
, , p.306
, , vol.76, p.324
, , p.326
, , vol.40, p.316
, , vol.101, p.317
, , p.295
, , vol.283, p.312
, , p.328
, , p.328
, , vol.90, p.325
, , p.338
, , p.312
, , p.330
, , vol.334, p.341
, , p.323
, , vol.34, p.317
, , vol.87, p.317
, , p.341
, , vol.24, p.317
, , vol.21, p.317
, , p.291
, , vol.94, p.317
, , p.284
, , p.328
, , vol.283, p.312
, , p.285
, , p.310
, , p.323
, , p.340
, , p.326
, , vol.296, p.317
, , p.339
, , p.313
, , p.328
, , p.318
, , p.319
, , p.330
, , vol.96, p.317
, , vol.43, p.331
, , vol.306, p.342
, , vol.342
, , p.297
, , vol.300, p.329
, , p.328
, , p.334
, , vol.306, p.335
, , p.333
, , p.316
, , p.320
, , p.306
, , p.333
, , vol.297, p.316
, , vol.342
, , p.333
, , vol.65, p.338
, , p.305
, , p.335
, , p.336
, , p.313
, , vol.7, p.318
, , vol.286, p.339
, , vol.40, p.318
, , p.320
, , vol.300, p.342
, , p.330
, , vol.297, p.328
, , vol.13, p.318
, , p.339
, , p.340
, , p.292
, , vol.33, p.318
, , vol.72, p.327
, , p.305
, , vol.324, p.330
, , p.334
, , vol.283, p.309
, , vol.305, p.342
, , p.285
, , vol.315, p.328
, , vol.71, p.324
, , p.298
, , p.321
, , p.289
, , vol.95, p.319
, , p.320
, , p.298
, , vol.76, p.319
, , p.298
, , p.297
, , p.291
, , vol.36, p.343
, , p.314
, , vol.98, p.319
, , vol.303, p.336
, , p.299
, , vol.99, p.319
, , vol.44, p.319
, , p.323
, , p.333
, , p.296
, , p.323
, , p.283
, , p.303
, , vol.305, p.306
, , p.308
, , vol.283, p.328
, , vol.94, p.342
, , p.298
, , p.337
, , p.305
, , p.330
, , vol.183, p.319
, , vol.336, p.341
, , vol.342
, , vol.306, p.335
, , vol.41, p.319
, , p.320
, , p.306
, , p.335
, , p.306
, , p.318
, , vol.334, p.341
, , p.335
, , p.306
, , p.317
317 National Instruments, vol.154, p.319 ,
, , vol.22, p.319
, , p.326
, , p.288
, , vol.94, p.320
, , vol.315, p.341
, , p.285
, , vol.8, p.342
, Newport, vol.122, p.320
, , p.291
, , vol.288, p.337
, , vol.296, p.330
, , p.327
, , vol.96, p.320
, , vol.299, p.334
, , p.336
, , vol.296, p.338
, , p.320
, , vol.335, p.342
, , vol.306, p.335
, , p.283
, , p.308
, , vol.70, p.336
, , p.308
, , p.335
, , p.318
, , p.338
, , vol.338, pp.304-306
, , p.320
, , p.335
, , p.295
, , vol.8, p.320
, , p.321
, , vol.197, p.321
, , vol.291, p.327
, , p.316
, , p.334
, , p.341
, , p.305
, , p.290
, , p.334
, , vol.334, p.335
, , vol.64, p.341
, , p.306
, , p.316
, , vol.45, p.321
, , p.320
, , p.305
, , p.285
, , p.306
, , vol.306, p.335
, , vol.342
, , p.335
, , vol.24, p.321
, , p.307
, , vol.314, p.333
, , vol.312, p.319
, , p.335
, , vol.86, p.321
, , vol.296, p.297
, , p.305
, , vol.306, p.335
, , p.307
, , p.288
, , vol.113, p.327
, , p.328
, , vol.328, p.333
, , vol.283, p.290
, , p.315
, , p.343
, , vol.30, p.323
, , vol.65, p.325
, , vol.70, p.321
, , p.320
, , vol.9, p.343
, , p.292
, , p.329
, , p.303
, , p.330
, , p.326
, , p.316
, , p.325
, , p.283
, , p.341
, , p.316
, , p.311
, , p.307
, , p.311
, , vol.307, p.331
, , p.336
, , p.318
, , vol.302, p.343
, , vol.299, p.342
, , vol.101, p.323
, Particle Therapy Cooperative Group, vol.170, p.323
, , p.318
, , vol.285, p.323
, , vol.299, p.332
, , vol.283, p.328
, , p.323
, , p.292
, , p.291
, , vol.81, p.337
, , p.289
, , p.334
, , vol.69, p.338
, , p.320
, , vol.25, p.323
, , p.284
, , vol.302, p.343
, , vol.220, p.323
, , vol.13, p.330
, , p.300
, , p.296
, , p.333
, , vol.41, p.330
, , p.312
, , vol.41, p.328
, , vol.71, p.324
, , vol.77, p.333
, , p.334
, , vol.288, p.315
339 Index Peters, vol.174, p.324 ,
, , p.337
, , vol.90, p.327
, , p.312
, , vol.80, p.337
, , p.302
, , p.312
, , vol.291, p.336
, , p.317
, , vol.33, p.324
, , p.310
, , p.328
, , p.317
, , vol.43, p.324
, , p.305
, , vol.288, p.315
, , p.316
, , vol.84, pp.324-327
, , vol.288, p.315
, , p.289
, , p.284
, , p.285
, , vol.40, p.325
, , vol.324, p.337
, , p.325
, , vol.57, p.334
, , p.318
, , p.291
, , vol.336, p.337
, , vol.81, p.327
, , vol.39, p.336
, , p.326
, , p.301
, , p.326
, , vol.49, p.326
, , p.323
, , p.316
, , p.287
, , p.329
, , p.327
, , p.336
, , vol.303, p.341
, , vol.84, p.333
, , p.292
, , vol.298, p.317
, , vol.284, p.285
, , vol.314, p.329
, , vol.308, p.328
, , vol.77, p.326
, , p.288
, , p.285
, , vol.299, p.323
, , p.303
, , vol.299, p.337
, , vol.283, p.290
, , p.304
, , p.320
, , p.327
, , p.290
, , vol.47, p.326
, , vol.299, p.333
, , p.292
, , p.332
, , p.338
, , p.310
, , vol.298, p.329
, , p.332
, , p.330
, , p.298
, , p.319
, , p.313
, , vol.289, p.337
, , p.312
, , vol.85, p.326
, , p.334
, , p.305
, , p.324
, , vol.297, p.309
, , vol.298, p.314
, , p.310
, , p.304
, , p.292
, , p.297
, , vol.290, p.308
, , p.296
, , p.291
, , p.310
, , p.340
, , vol.108, p.337
, , vol.85, p.341
, , vol.31, p.326
, , p.292
, , p.339
, , vol.42, p.326
, , p.302
, , vol.116, p.327
, , p.315
, , p.340
, , vol.288, p.328
, , vol.76, p.327
, , p.302
, , p.312
, , p.338
, , vol.90, p.327
, , vol.37, p.327
, , vol.93, p.327
, , p.311
, , vol.294
, , p.337
, , p.325
, , vol.88, p.333
, , p.291
, , vol.183, p.327
, , vol.133, p.327
, , vol.98, p.340
, , vol.299, p.331
, , p.314
, , vol.71, p.328
, , p.296
, , p.319
, , vol.283, p.333
, , p.296
, , p.312
, , vol.25, p.328
, , p.337
, , p.327
, , vol.324, p.341
, , p.303
, , p.314
, , p.298
, , p.314
, , vol.12, p.328
, , p.296
, , p.284
, , vol.333, p.339
, , vol.302, p.343
, , vol.289, p.297
, , p.316
, , p.284
, , p.318
, , p.319
, , p.316
, , p.291
, , p.320
, , p.304
, , p.323
, , p.319
, , p.307
, , p.290
, , vol.77, p.339
, , p.314
, , p.314
, , p.316
, , p.334
, , vol.51, p.328
, , vol.13, p.328
, , p.283
, , vol.19, p.328
, , vol.325, p.328
, , p.325
, , p.292
, , p.330
, , vol.41, p.328
, , p.320
, Saint Gobain, vol.119, p.329
, , p.306
, , p.303
, , p.341
, , vol.288, p.328
, , p.292
, , vol.291, p.294
, , p.298
, , p.289
, , vol.284, p.340
, , p.291
, , vol.114, p.329
, , p.328
, , p.334
, , p.287
, , vol.318, p.333
, , vol.42, p.329
, , vol.295, p.327
, , vol.283, p.324
, , p.316
, , p.283
, , vol.308, p.338
, , vol.301, p.338
, , p.308
, , vol.334, p.341
, , p.291
, , vol.41, p.340
, , p.313
, , vol.38, p.329
, , p.333
, , p.289
, , vol.44, p.329
, , vol.41, p.329
, , p.304
, , vol.101, p.331
, , p.304
, , vol.283, p.337
, , vol.36, p.329
, , vol.15, p.330
, , vol.310, p.337
, , vol.323, p.324
, , vol.296, p.330
, , p.319
, , vol.17, p.330
, , vol.319, p.321
, , vol.35, p.331
, , p.313
, , p.327
, , p.328
, , p.300
, , vol.18, p.330
, , vol.36, p.330
, , vol.295, p.340
, , vol.298, p.333
, , p.343
, , vol.305, p.328
, , vol.36, p.338
, , vol.305, p.328
, , p.318
, , vol.305, p.325
, , vol.29, p.331
, , vol.77, p.331
, , vol.316, p.324
, , p.330
, , p.295
, , p.317
, , p.303
, , p.324
, , vol.342
, , p.296
, , vol.283, p.324
, , p.321
, , p.295
, , vol.304, p.339
, , p.297
, , p.293
, , p.308
, , vol.306, p.335
, , p.319
, , vol.64, p.331
, , vol.87, p.331
, , p.303
, , vol.14, p.332
, , p.334
, , p.302
, , vol.21, p.332
, , p.338
, , p.323
, , vol.67, p.332
, , p.327
, , p.291
, , p.315
, , p.320
, , p.320
, , vol.294, p.300
, , vol.24, p.332
, , vol.342
, , vol.308, p.339
, , vol.334, p.341
, , vol.342
, , p.338
, , p.335
, , p.306
, , vol.42, p.332
, , p.338
, , p.306
, , vol.304, p.305
, , vol.68, p.332
, , p.320
, , p.305
, , p.291
, , p.314
, , p.320
, , p.328
, , p.328
, , p.291
, , p.301
, , p.287
, , vol.86, p.332
, , p.333
, , vol.298, p.329
, , p.300
, , p.285
, , p.318
, , p.341
, , p.297
, , p.320
, , p.319
, , vol.84, p.341
, , p.338
, , p.336
, , p.312
, , p.323
, , p.316
, , vol.296, p.323
, , p.300
, , vol.313, p.333
, , p.341
, , vol.88, p.333
, , p.316
, , vol.70, p.333
, , p.311
, , vol.217, p.333
, , p.301
, , p.292
, , p.284
, , p.330
, , vol.132, p.333
, , p.325
, , vol.71, p.333
, , p.334
, , vol.29, p.333
, , p.324
, , p.314
, , p.307
, , p.327
, , vol.314, p.329
, , p.313
, , p.311
, , p.314
, , p.330
, , p.323
, , p.305
, , vol.325, p.328
, , p.313
, , vol.33, p.333
, , p.300
, , vol.77, p.333
, , vol.39, p.334
, , vol.43, p.334
, , p.318
, , vol.22, p.334
, , p.323
, , vol.290, p.333
, , p.328
, , vol.99, p.334
, , p.313
, , p.289
, , p.289
, , p.321
, , p.330
, , vol.305, p.338
, , p.310
, , vol.335, p.342
, , vol.32, p.334
, , vol.48, p.334
, , vol.67, p.334
, , p.315
, , p.290
, , vol.98, p.334
, , vol.93, p.334
, , p.336
, , p.284
, , p.334
, , p.291
, , p.287
, , vol.44, p.335
, , p.336
, , p.335
, , vol.25, p.335
, , vol.91, p.335
, , vol.342
, , vol.306, p.310
, , vol.334, p.341
, , p.339
, , p.338
, , p.305
, , p.305
, , vol.319, p.320
, , p.306
, , vol.306, p.335
, , p.286
, , vol.33, p.338
, , vol.69, p.338
, , vol.151, p.338
, , vol.36, p.339
, , p.331
, , vol.33, p.339
, , p.319
, , p.284
, , p.292
, , vol.283, p.312
, , p.310
, , vol.157, p.339
, , p.296
, , p.334
, J, p.311
, , p.323
, , p.322
, , vol.65, p.339
, , p.312
, , vol.303, p.341
, , p.340
, , vol.297, p.324
, , p.329
, , vol.92, p.339
, , p.328
, , p.303
, , vol.12, p.339
, , vol.71, p.339
, , vol.23, p.339
, , p.323
, , vol.74, p.339
, , p.284
, , vol.286, p.310
, , p.314
, , p.326
, , p.286
, , p.311
, , p.307
, , p.341
, , p.293
, , vol.342
, , p.283
, , p.328
, , vol.283, p.324
, , p.323
, , p.326
, , p.284
, , p.298
, , vol.68, p.340
, , p.308
, , p.301
, , vol.293, p.303
, , p.299
, , p.300
, , p.335
, , vol.293, p.327
, , p.319
, , p.336
, , p.340
, , vol.304
, , p.317
, , p.338
, , vol.305, p.337
, , vol.312, p.339
, , vol.334, p.341
, , p.320
, , vol.183, p.340
, , vol.44, p.340
, , vol.6, p.340
, , p.295
, , vol.94, p.340
, , vol.309, p.330
, , p.284
, , p.316
, , p.308
, , p.313
, , p.284
, , vol.14, p.340
, , vol.131, p.340
, , p.286
, , p.334
, , p.324
, , vol.342
, , p.319
, , vol.170, p.340
, , vol.288, p.324
, , p.320
, , vol.22, p.340
, , p.320
, , p.341
, , p.310
, , vol.87, p.340
, , vol.21, p.340
, , vol.33, p.341
, , p.327
, , p.327
, , p.319
, , vol.23, p.341
, , vol.7, p.341
, , p.295
, , p.324
, , p.295
, , p.314
, , p.325
, , p.323
, , vol.36, p.341
, , vol.304, p.323
, , p.334
, , p.330
, , vol.338
, , vol.37, p.341
, , vol.93, p.341
, , vol.17, p.341
, , p.307
, , p.316
, , vol.85, p.341
, , p.338
, , p.308
, , p.310
, , p.316
, , vol.45, p.342
, , p.306
, , p.336
, , vol.308, p.341
, , p.327
, , p.316
, , vol.312, p.319
, , vol.45, p.342
, , p.298
, , vol.18, p.342
, , vol.31, p.342
, , p.337
, , p.310
, , p.334
, , p.335
, , p.283
, , p.286
, , p.286
, , p.341
, , vol.298, p.332
, , p.323
, , vol.52, p.342
, , vol.335, p.342
, , p.338
, , p.334
, , vol.89, p.342
, , p.338
, , p.308
, , vol.317, p.318
, , p.291
, , vol.283, p.290
, , p.297
, , p.329
, , p.323
, , p.328
, , vol.305, p.325
, , vol.97, p.342
, , p.284
, , p.320
, , p.317
, , p.313
, , p.320
, , p.320
, , p.319
, , vol.69, p.343
, , vol.300, p.342
, , p.320
, , vol.293, p.309
, , vol.101, p.343
, , vol.25, p.343
, , p.313
, , p.334
, , p.308
, , p.287
, , p.313
, , p.319
, , p.294