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Article cité :

Physical mechanisms and parameters for models of microstructure evolution under irradiation in Fe alloys – Part I: Pure Fe

L. Malerba, N. Anento, J.P. Balbuena, et al.
Nuclear Materials and Energy 29 101069 (2021)
https://doi.org/10.1016/j.nme.2021.101069

On the transfer of cascades from primary damage codes to rate equation cluster dynamics and its relation to experiments

T. Jourdan and J.-P. Crocombette
Computational Materials Science 145 235 (2018)
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Influence of free surfaces on microstructure evolution of radiation damage in Fe from molecular dynamics and object kinetic Monte Carlo calculations

Maria J. Aliaga, Ignacio Dopico, Ignacio Martin‐Bragado and Maria J. Caturla
physica status solidi (a) 213 (11) 2969 (2016)
https://doi.org/10.1002/pssa.201600158

Recombination radius of a Frenkel pair and capture radius of a self-interstitial atom by vacancy clusters in bcc Fe

Kenichi Nakashima, Roger E Stoller and Haixuan Xu
Journal of Physics: Condensed Matter 27 (33) 335401 (2015)
https://doi.org/10.1088/0953-8984/27/33/335401

Linear collision sequences in bcc iron and the effect of thermal vibrations

A. Souidi, A. Elias, A. Djaafri, C.S. Becquart and M. Hou
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 193 (1-4) 341 (2002)
https://doi.org/10.1016/S0168-583X(02)00802-9

Influence of Radiation-Stimulated Grain-Boundary Segregation of Phosphorus on the Operational Properties of Nuclear-Reactor-Vessel Materials

A. V. Nikolaeva, Yu. A. Nikolaev, Yu. R. Kevorkyan and O. O. Zabusov
Atomic Energy 91 (5) 884 (2001)
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Transient thermal process induced by swift heavy ions: Defect annealing and defect creation in Fe and Ni

Ch. Dufour, Z G Wang, E Paumier and M Toulemonde
Bulletin of Materials Science 22 (3) 671 (1999)
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Electronic Excitation Effects on Defect Production and Radiation Annealing in Fe Irradiated at ∼80K with Energetic Particles

Y. Chimi, A. Iwase and N. Ishikawa
MRS Proceedings 504 (1997)
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The contribution of grain boundary effects to low-alloy steel irradiation embrittlement

A.V. Nikolaeva, Yu.A. Nikolaev and A.M. Kryukov
Journal of Nuclear Materials 218 (1) 85 (1995)
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Effects induced by high electronic excitations in pure metals: A detailed study in iron

A. Dunlop, D. Lesueur, P. Legrand, H. Dammak and J. Dural
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 90 (1-4) 330 (1994)
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High electronic excitations and damage production in GeV-ion-irradiated metals

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Damage production in iron during high-energy ion irradiation: Experimental and theoretical determinations

A. Dunlop, D. Lesueur and J. Dural
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Defect production rates in normal and in superconducting states

F. Rullier-Albenque, H. Bielska-Lewandowska, Y. Quéré, G. Wallner and P. Müller
Journal of Nuclear Materials 151 (3) 251 (1988)
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Production de defauts dans des films de fer; etude en fonction de la densite d'energie deposee dans les cascades

C. Jaouen, J.P. Riviére, C. Templier and J. Delafond
Journal of Nuclear Materials 131 (1) 11 (1985)
https://doi.org/10.1016/0022-3115(85)90419-2

Irradiation aux ions d'un film mince d'alliage Fe 65 at%−Co 35 at%. Production d'un verre métallique Fe 50 at%−Co 30 at%−P 20 at%

J. F. Dinhut, P. Bouillaud and J. P. Rivière
physica status solidi (a) 87 (1) 199 (1985)
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Amorphous Fe-B alloys produced by ion implantation. II. Low-temperature radiation damage

A Audouard, A Benyagoub, L Thome and J Chaumont
Journal of Physics F: Metal Physics 15 (6) 1237 (1985)
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Endommagement produit dans des films de fer α irradies a 77 K par different ions

C. Jaouen, J.P. Riviere, C. Fayoux, J.F. Dinhut and J. Delafond
Nuclear Instruments and Methods in Physics Research 209-210 947 (1983)
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Defects and related phenomena in electron irradiated ordered or disordered Fe-Co and Fe-Co-V alloys

J. P. Riviere, J. F. Dinhut and G. Desarmot
Radiation Effects 71 (1-2) 137 (1983)
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The resistivity recovery of high purity and carbon doped iron following low temperature electron irradiation

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Low-temperature fission-neutron disordering of Fe-Co and Fe-Co-X (X = Mn, V, Ti) ordered alloys

J.P. Rivière and J.F. Dinhut
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The negative curvature phenomenon of resistivity damage rate observed in some metals neutron irradiated at 4.6 K

A. Dunlop, B.M. Pande, K. Böning, P. Rosner and H.E. Schaefer
Journal of Nuclear Materials 108-109 83 (1982)
https://doi.org/10.1016/0022-3115(82)90475-5

Irradiation du fer à 20 K par les neutrons rapideset par les produits de fission de l'uranium 235

A. Dunlop, N. Lorenzelli and J. C. Jousset
Physica Status Solidi (a) 51 (2) 479 (1979)
https://doi.org/10.1002/pssa.2210510220