J. E. Dec, A conceptual model of DI diesel combustion based on laser-sheet imaging, SAE Technical Paper, p.970873, 1997.
DOI : 10.4271/970873

G. Bruneaux, Combustion structure of free and wall-impinging diesel jets by simultaneous laser-induced fluorescence of formaldehyde, poly-aromatic hydrocarbons, and hydroxides, Int. J. Eng. Res, vol.9, issue.3, pp.249-265, 2008.
DOI : 10.1243/14680874jer00108

D. Verhoeven, J. Vanhemelryck, and T. Baritaud, Macroscopic and ignition characteristics of high-pressure sprays of single-component fuels, SAE Technical Paper, p.981069, 1998.
DOI : 10.4271/981069

H. Kosaka, T. Aizawa, and T. Kamimoto, Two-dimensional imaging of ignition and soot formation processes in a diesel flame, Int. J. Eng. Res, vol.6, pp.21-42, 2005.
DOI : 10.1243/146808705x7347

L. M. Pickett, D. L. Siebers, and C. A. Idicheria, Relationship between ignition processes and the lift-off length of diesel fuel jets, 2005.
DOI : 10.4271/2005-01-3843

D. L. Siebers, B. Higgins, and L. Pickett, Flame lift-off on direct-injection diesel fuel jets: oxygen concentration effects, SAE Technical Paper, 2002.
DOI : 10.4271/2002-01-0890

B. Higgins and D. L. Siebers, Measurement of the flame Lift-Off location on DI diesel sprays using OH chemiluminescence, SAE Technical Paper, 2001.
DOI : 10.4271/2001-01-0918

R. Payri, F. J. Salvador, J. Manin, and A. Viera, Diesel ignition delay and lift-off length through different methodologies using a multi-hole injector, Appl. Energy, vol.162, pp.541-550, 2016.
DOI : 10.1016/j.apenergy.2015.10.118
URL : https://riunet.upv.es/bitstream/10251/82713/3/payri_2016_APEN_authorcopy.pdf

L. M. Pickett, S. Kook, H. Persson, and Ö. Andersson, Diesel fuel jet lift-off stabilization in the presence of laserinduced plasma ignition, Proc. Combust. Inst, vol.32, pp.2793-2800, 2009.

T. Ito, T. Kitamura, M. Ueda, T. Matsumoto, J. Senda et al., Effects of flame lift-off and flame temperature on soot formation in oxygenated fuel sprays, SAE Technical Paper, 2003.
DOI : 10.4271/2003-01-0073

C. J. Mueller, W. J. Pitz, L. M. Pickett, G. C. Martin, D. L. Siebers et al., Effects of oxygenates on soot processes in DI diesel engines: experiments and numerical simulations, SAE Technical Paper, 2003.
DOI : 10.4271/2003-01-1791

M. P. Musculus, J. E. Dec, and D. R. Tree, Effects of fuel parameters and diffusion flame lift-off on soot formation in a heavy-duty DI diesel engine, 2002.

L. M. Pickett and D. L. Siebers, Fuel effects on soot processes of fuel jets at DI diesel conditions, SAE Technical Paper, 2003.
DOI : 10.4271/2003-01-3080

C. Pauls, G. Grünefeld, S. Vogel, and N. Peters, Combined simulation and OH-chemiluminescence measurements of the combustion process using different fuels under diesel-engine like conditions, SAE Technical Paper, 2007.
DOI : 10.4271/2007-01-0020

Y. Pei, E. R. Hawkes, M. Bolla, S. Kook, G. M. Goldin et al., An analysis of the structure of an n-dodecane spray flame using TPDF modelling, Combust. Flame, vol.168, pp.420-435, 2016.

C. Gong, M. Jangi, and X. Bai, Diesel flame lift-off stabilization in the presence of laser-ignition, Combust. Theor. Model, vol.19, pp.696-713, 2015.

A. Krisman, E. R. Hawkes, M. Talei, A. Bhagatwala, and J. H. Chen, Polybrachial structures in dimethyl ether edge-flames at negative temperature coefficient conditions, Proc. Combust. Inst, vol.35, pp.999-1006, 2015.

A. Krisman, E. R. Hawkes, M. Talei, A. Bhagatwala, and J. H. Chen, Characterisation of two-stage ignition in diesel engine-relevant thermochemical conditions using direct numerical simulation, Combust. Flame, vol.172, pp.326-341, 2016.

Y. Minamoto and J. H. Chen, DNS of a turbulent lifted DME jet flame, Combust. Flame, vol.169, pp.38-50, 2016.

K. Wohl, N. M. Kapp, and C. Gazley, The stability of open flames, Symp. (Int.) Combust, vol.3, pp.3-21, 1948.

K. M. Lyons, Toward an understanding of the stabilization mechanisms of lifted turbulent jet flames, Prog. Energy Combust. Sci, vol.33, pp.211-231, 2007.

O. Schulz, T. Jaravel, T. Poinsot, B. Cuenot, and N. Noiray, A criterion to distinguish auto-ignition and propagation applied to a lifted methane-air jet flame, Proc. Combust. Inst, vol.36, pp.1637-1644, 2017.

C. J. Lawn, Lifted flames on fuel jets in co-flowing air, Prog. Energy Combust. Sci, vol.35, pp.1-30, 2009.

S. Karami, E. R. Hawkes, M. Talei, and J. H. Chen, Mechanisms of flame stabilisation at low lifted height in a turbulent lifted slot-jet flame, J. Fluid Mech, vol.777, pp.633-689, 2015.

L. Vanquickenborne and A. Van-tiggelen, The stabilization mechanism of lifted diffusion flames, Combust. Flame, vol.10, pp.59-69, 1966.

H. Eickhoff, B. Lenze, and W. Leuckel, Experimental investigation on the stabilization mechanism of jet diffusion flames, Symp. (Int.) Combust, vol.20, pp.311-318, 1984.

H. Phillips, Flame in a buoyant methane layer, Symp. (Int.) Combust, vol.10, pp.1277-1283, 1965.

L. Muñiz and M. G. , Instantaneous flame-stabilization velocities in lifted-jet diffusion flames, Combust. Flame, vol.111, pp.16-31, 1997.

P. N. Kioni, B. Rogg, K. Bray, and A. Liñán, Flame spread in laminar mixing layers, Combust. Flame, vol.95, pp.276-290, 1993.

P. Domingo and L. Vervisch, Triple flames and partially premixed combustion in autoignition of non-premixed turbulent mixtures, Symp. (Int.) Combust, vol.26, pp.233-240, 1996.
URL : https://hal.archives-ouvertes.fr/hal-02007992

G. R. Ruetsch, L. Vervisch, and A. Liñán, Effects of heat release on triple flames, Phys. Fluids, vol.7, pp.1447-1454, 1995.

N. Peters, Turbulent Combustion, 2000.

N. Peters, Laminar diffusion flamelet models in non-premixed turbulent combustion, Prog. Energy Combust. Sci, vol.10, pp.319-339, 1984.

J. E. Broadwell, W. J. Dahm, and M. G. , Blowout of turbulent diffusion flames, Symp. (Int.) Combust, vol.20, pp.303-310, 1985.

W. M. Pitts, Assessment of theories for the behavior and blowout of lifted turbulent jet diffusion flames, Symp. (Int.) Combust, vol.22, pp.809-816, 1989.

T. Poinsot and D. Veynante, Theoretical and Numerical Combustion, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00270731

D. A. Everest, D. A. Feikema, and J. F. Driscoll, Images of the strained flammable layer used to study the liftoff of turbulent jet flames, Symp. (Int.) Combust, vol.26, pp.129-136, 1996.

R. W. Schefer, M. Namazian, E. Filtopoulos, and J. Kelly, Temporal evolution of turbulence/chemistry interactions in lifted, turbulent-jet flames, Symp. (Int.) Combust, vol.25, pp.1223-1231, 1994.

R. C. Miake-lye and J. A. Hammer, Lifted turbulent jet flames, Symp. (Int.) Combust, vol.22, pp.817-824, 1989.

C. P. Burgess and C. J. Lawn, The premixture model of turbulent burning to describe lifted jet flames, Combust. Flame, vol.119, pp.95-108, 1999.

N. Peters and F. A. Williams, Liftoff characteristics of turbulent jet diffusion flames, AIAA J, vol.21, pp.423-429, 1983.

C. K. Westbrook, W. J. Pitz, O. Herbinet, H. J. Curran, and E. J. Silke, A comprehensive detailed chemical kinetic reaction mechanism for combustion of n-alkane hydrocarbons from n-octane to n-hexadecane, Combust. Flame, vol.156, pp.181-199, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00848875

Z. Luo, S. Som, S. M. Sarathy, M. Plomer, W. J. Pitz et al., Development and validation of an n-dodecane skeletal mechanism for spray combustion applications, Combust. Theor. Model, vol.18, pp.187-203, 2014.

R. N. Dahms, G. A. Paczko, S. A. Skeen, and L. M. Pickett, Understanding the ignition mechanism of high-pressure spray flames, Proc. Combust. Inst, vol.36, pp.2615-2623, 2017.

N. Maes, M. Meijer, N. Dam, B. Somers, H. Baya-toda et al., Characterization of Spray A flame structure for parametric variations in ECN constant-volume vessels using chemiluminescence and laser-induced fluorescence, Combust. Flame, vol.174, pp.138-151, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01518354

R. Venugopal and J. Abraham, A numerical investigation of flame lift-off in diesel Jets, Combust. Sci. Technol, vol.179, pp.2599-2618, 2007.

A. Krisman, E. R. Hawkes, M. Talei, A. Bhagatwala, and J. H. Chen, A direct numerical simulation of cool-flame affected auto-ignition in diesel engine-relevant conditions, Proc. Combust. Inst, vol.36, pp.3567-3575, 2017.

A. Krisman, E. R. Hawkes, and J. H. Chen, Two-stage auto-ignition and edge flames in a high pressure turbulent jet, J. Fluid Mech, vol.824, pp.5-41, 2017.

A. Krisman, E. R. Hawkes, and J. H. Chen, The structure and propagation of laminar flames under autoignitive conditions, Combust. Flame, vol.188, pp.399-411, 2018.

D. G. Goodwin, H. K. Moffat, and R. L. Speth, , 2015.

M. C. Krejci, O. Mathieu, A. J. Vissotski, S. Ravi, T. G. Sikes et al., Laminar Flame Speed and Ignition Delay Time Data for the Kinetic Modeling of Hydrogen and Syngas Fuel Blends, J. Eng. Gas Turbines Power, vol.135, p.21503, 2013.

S. Deng, P. Zhao, M. E. Mueller, and C. K. Law, Stabilization of laminar non-premixed DME/air coflow flames at elevated temperatures and pressures, Combust. Flame, vol.162, pp.4471-4478, 2015.

R. Venugopal and J. Abraham, A Review of Fundamental Studies Relevant to Flame Lift-off in Diesel Jets, SAE Technical Paper, 2007.

L. M. Pickett,

M. Panigrahi and . Schlieren, Heat and Mass Transfer, 2012.

L. M. Pickett, C. L. Genzale, G. Bruneaux, L. Malbec, L. Hermant et al., Comparison of diesel spray combustion in different high-temperature, high-pressure facilities, SAE Int. J. Engines, vol.3, pp.156-181, 2010.

J. M. García-oliver, L. Malbec, H. B. Toda, and G. Bruneaux, A study on the interaction between local flow and flame structure for mixing-controlled diesel sprays, Combust. Flame, vol.179, pp.157-171, 2017.

D. L. Siebers and B. Higgins, Flame Lift-Off on Direct-Injection Diesel Sprays Under Quiescent Conditions, SAE Technical Paper, 2001.

, Idex optics & photonics, Gaussian beam optics

C. L. Genzale, L. M. Pickett, A. A. Hoops, and J. M. Headrick, Laser ignition of multi-injection gasoline sprays, 2011.

P. M. Lillo, L. M. Pickett, H. Persson, O. Andersson, and S. Kook, Diesel spray ignition detection and spatial/temporal correction, SAE Int. J. Engines, vol.5, pp.1330-1346, 2012.

S. A. Skeen, J. Manin, and L. M. Pickett, Simultaneous formaldehyde PLIF and high-speed schlieren imaging for ignition visualization in high-pressure spray flames, Proc. Combust. Inst, vol.35, pp.3167-3174, 2015.

J. Naber and D. L. Siebers, Effects of gas density and vaporization on penetration and dispersion of diesel sprays, SAE Technical Paper, vol.960034, 1996.

M. P. Musculus and K. Kattke, Entrainment waves in diesel jets, SAE Int. J. Engines, vol.2, pp.1170-1193, 2009.

T. Yao, Y. Pei, B. Zhong, S. Som, T. Lu et al., A compact skeletal mechanism for n-dodecane with optimized semi-global low-temperature chemistry for diesel engine simulations, Fuel, vol.191, pp.339-349, 2017.