L. Bocklage, B. Krüger, T. Matsuyama, M. Bolte, U. Merkt et al., Dependence of Magnetic Domain-Wall Motion on a Fast Changing Current, Phys. Rev. Lett, vol.103, issue.2, 2009.

Y. P. Ivanov, D. G. Trabada, A. Chuvilin, J. Kosel, O. Chubykalo-fesenko et al., Crystallographically Driven Magnetic Behaviour of Arrays of Monocrystalline Co Nanowires, Nanotechnology, vol.25, p.475702, 2014.

N. Biziere, C. Gatel, R. Lassalle-balier, M. C. Clochard, J. E. Wegrowe et al., Imaging the Fine Structure of a Magnetic Domain Wall in a Ni Nanocylinder, Nano Lett, vol.13, pp.2053-2057, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01143150

C. Gatel, F. J. Bonilla, A. Meffre, E. Snoeck, B. Warot-fonrose et al., Size-Specific Spin Configurations in Single Iron Nanomagnet: From Flower to Exotic Vortices, Nano Lett, vol.15, pp.6952-6957, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01707143

Y. P. Ivanov, L. G. Vivas, A. Asenjo, A. Chuvilin, O. Chubykalo-fesenko et al., Magnetic Structure of a Single-Crystal Hcp Electrodeposited Cobalt Nanowire, EPL Europhys. Lett, p.17009, 2013.

E. Berganza-eguiarte, M. Jaafar, C. Bran, J. Fernandez-roldan, O. Chubykalo-fesenko et al., Multisegmented Nanowires: A Step towards the Control of the Domain Wall Configuration, vol.7, p.11576, 2017.

H. Piao, J. Shim, D. Djuhana, and D. Kim, Intrinsic Pinning Behavior and Propagation Onset of Three-Dimensional Bloch-Point Domain Wall in a Cylindrical Ferromagnetic Nanowire, Appl. Phys. Lett, p.112405, 2013.

K. Maaz, S. Karim, M. Usman, A. Mumtaz, J. Liu et al., Effect of Crystallographic Texture on Magnetic Characteristics of Cobalt Nanowires, Nanoscale Res. Lett, vol.5, pp.1111-1117, 2010.

D. Reyes, N. Biziere, B. Warot-fonrose, T. Wade, and C. Gatel, Magnetic Configurations in Co/Cu Multilayered Nanowires: Evidence of Structural and Magnetic Interplay, Nano Lett, vol.16, pp.1230-1236, 2016.
URL : https://hal.archives-ouvertes.fr/cea-01400872

V. Vega, T. Böhnert, S. Martens, M. Waleczek, J. M. Montero-moreno et al., Tuning the Magnetic Anisotropy of Co-Ni Nanowires: Comparison between Single Nanowires and Nanowire Arrays in Hard-Anodic Aluminum Oxide Membranes, Nanotechnology, vol.23, p.465709, 2012.

J. U. Cho, J. Wu, J. H. Min, S. P. Ko, J. Y. Soh et al., Control of Magnetic Anisotropy of Co Nanowires, J. Magn. Magn. Mater, vol.303, pp.281-285, 2006.

Z. Liu, P. Chang, C. Chang, E. Galaktionov, G. Bergmann et al., Shape Anisotropy and Magnetization Modulation in Hexagonal Cobalt Nanowires, Adv. Funct. Mater, vol.18, pp.1573-1578, 2008.

J. M. Garc?á, A. Asenjo, J. Velázquez, D. Garc?á, M. Vázquez et al., Magnetic Behavior of an Array of Cobalt Nanowires, J. Appl. Phys, vol.85, pp.5480-5482, 1999.

R. Ferré, K. Ounadjela, J. M. George, L. Piraux, and S. Dubois, Magnetization Processes in Nickel and Cobalt Electrodeposited Nanowires, Phys. Rev. B, vol.56, pp.14066-14075, 1997.

E. D. Barriga-castro, J. García, R. Mendoza-reséndez, V. M. Prida, and C. Luna, Pseudo-Monocrystalline Properties of Cylindrical Nanowires Confinedly Grown by Electrodeposition in Nanoporous Alumina Templates, vol.7, pp.13817-13826, 2017.

A. Carl, D. Weller, R. Savoy, and B. Hillebrands, HCP-FCC Phase Transition in Co-Ni Alloys Studied With Magneto-Optical Kerr Spectroscopy, MRS Online Proc. Libr. Arch, vol.343, pp.351-356, 1994.

A. S. Samardak, A. V. Ognev, A. Samardak, . Yu, E. V. Stebliy et al., Fardi-Ilkhichy, A.; Nasirpouri, F. Variation of Magnetic Anisotropy and Temperature-Dependent FORC Probing of Compositionally Tuned Co-Ni Alloy Nanowires

, J. Alloys Compd, vol.732, pp.683-693, 2018.

M. R. Mccartney and D. J. Smith, Electron Holography: Phase Imaging with Nanometer Resolution, Annu. Rev. Mater. Res, vol.37, pp.729-767, 2007.

M. Sta?o, S. Jamet, J. Toussaint, S. Bochmann, J. Bachmann et al., Probing Domain Walls in Cylindrical Magnetic Nanowires with Electron Holography, J. Phys. Conf. Ser, p.12055, 2017.

E. Snoeck, R. E. Dunin-borkowski, F. Dumestre, P. Renaud, C. Amiens et al., Quantitative Magnetization Measurements on Nanometer Ferromagnetic Cobalt Wires Using Electron Holography, Appl. Phys. Lett, vol.82, pp.88-90, 2003.

K. Gandha, K. Elkins, N. Poudyal, X. Liu, and J. P. Liu, High Energy Product Developed from Cobalt Nanowires, Sci. Rep, vol.4, p.5345, 2014.

J. Cantu-valle, I. Betancourt, J. E. Sanchez, F. Ruiz-zepeda, M. M. Maqableh et al., Mapping the Magnetic and Crystal Structure in Cobalt Nanowires, J. Appl. Phys, vol.118, p.24302, 2015.

C. Bran, J. A. Fernandez-roldan, E. M. Palmero, E. Berganza, J. Guzman et al., Direct Observation of Transverse and Vortex Metastable Magnetic Domains in Cylindrical Nanowires, Phys. Rev. B, p.125415, 2017.

S. Ruiz-gómez, M. Foerster, L. Aballe, M. P. Proenca, I. Lucas et al., Observation of a Topologically Protected State in a Magnetic Domain Wall Stabilized by a Ferromagnetic Chemical Barrier, Sci. Rep, vol.8, p.16695, 2018.

Y. P. Ivanov, A. Chuvilin, L. G. Vivas, J. Kosel, O. Chubykalo-fesenko et al., Single Crystalline Cylindrical Nanowires -Toward Dense 3D Arrays of Magnetic Vortices, Sci. Rep, 2016.

D. Viladot, M. Véron, M. Gemmi, F. Peiró, J. Portillo et al., Orientation and Phase Mapping in the Transmission Electron Microscope Using Precession-Assisted Diffraction Spot Recognition: State-of-the-Art Results, J. Microsc, vol.252, pp.23-34, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00933902

E. F. Rauch, J. Portillo, S. Nicolopoulos, D. Bultreys, S. Rouvimov et al., Automated Nanocrystal Orientation and Phase Mapping in the Transmission Electron Microscope on the Basis of Precession Electron Diffraction, Z. Für Krist, vol.225, pp.103-109, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00528054

V. Scarani, B. Doudin, and J. Ansermet, The Microstructure of Electrodeposited Cobalt-Based Nanowires and Its Effect on Their Magnetic and Transport Properties, J. Magn. Magn. Mater, vol.205, pp.241-248, 1999.

Y. Henry, K. Ounadjela, L. Piraux, S. Dubois, J. M. George et al., Magnetic Anisotropy and Domain Patterns in Electrodeposited Cobalt Nanowires, Eur. Phys. J. B, vol.20, pp.35-54, 2001.

M. J. Donahue and . Oommf, User's Guide, Version 1.0, vol.6376, p.1999

P. Longo, P. J. Thomas, A. Aitouchen, P. Rice, T. Topuria et al., Atomic Elemental and Chemical Analysis of SrTiO3/LaMnO3 Multilayers Using Fast Simultaneous EELS and EDS Analysis in Digi-talMicrograph, vol.23, pp.44-53, 2015.

T. Nishizawa, K. T. Ishida, and . Co?ni, Cobalt-Nickel) System. Bull. Alloy Phase Diagr, vol.4, pp.390-395, 1983.

C. Gatel, J. Dupuy, F. Houdellier, and M. J. Hÿtch, Unlimited Acquisition Time in Electron Holography by Automated Feedback Control of Transmission Electron Microscope, Appl. Phys. Lett, p.133102, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01884057