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Radiation Effects and Defects in Solids
Incorporating Plasma Science and Plasma Technology
Volume 145, 1998 - Issue 1-2
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Section A: Radiation effects

The concept of effective electronic stopping power for modelling the damage cross-section in refractory oxides irradiated by GeV ions or MeV clusters

B. Canut Département de Physique des Matériaux, (UMR CNRS 5586), CNRS et Université Claude Bernard-Lyon I, 69622, Villeurbanne, Cédex, France; Phone: 04 72 43 12 18 Fax: 04 72 43 12 18 E-mail: [email protected]
&
S. M. M. Ramos Département de Physique des Matériaux, (UMR CNRS 5586), CNRS et Université Claude Bernard-Lyon I, 69622, Villeurbanne, Cédex, France
Pages 1-27 | Received 20 Dec 1997, Published online: 19 Aug 2006

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G. Szenes. (2020) Materials parameters and ion-induced track formation. Radiation Effects and Defects in Solids 175:3-4, pages 241-256.
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S. Gokul Raj & G. Ramesh Kumar. (2010) Swift ion beam irradiation on lithium niobate single crystals. Radiation Effects and Defects in Solids 165:5, pages 370-379.
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G. Szenes. (2007) Temperature distribution in a swift ion-induced spike: an experimental approach. Radiation Effects and Defects in Solids 162:7-8, pages 557-565.
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S. Bouffard, C. Leroy, S. Della-Negra, A. Brunelle & J.M. Costantini. (2001) Damage production yield by electron excitation in mica for ion and cluster irradiations. Philosophical Magazine A 81:12, pages 2841-2854.
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Articles from other publishers (36)

Lijun Xu, Ruslan A. Rymzhanov, Pengfei Zhai, Shengxia Zhang, Peipei Hu, Xuan Meng, Jian Zeng, Youmei Sun & Jie Liu. (2023) Direct Fabrication of Sub-10 nm Nanopores in WO 3 Nanosheets Using Single Swift Heavy Ions . Nano Letters 23:10, pages 4502-4509.
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Wenhao Shen, Xue Wang, Gehui Zhang, Patrick Kluth, Yugang Wang & Feng Liu. (2023) Illustrating the atomic structure and formation mechanism of ion tracks in polyethylene terephthalate with molecular dynamics simulations. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 535, pages 102-111.
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György Szenes. (2021) Identical Response of Insulators to Irradiations by Swift Heavy Ions: Application to Experiments on Gd 2 Ti 2 O 7 . physica status solidi (b) 258:12, pages 2100255.
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Wensi Ai, Lijun Xu, Shuai Nan, Pengfei Zhai, Weixing Li, Zongzhen Li, Peipei Hu, Jian Zeng, Shengxia Zhang, Li Liu, Youmei Sun & Jie Liu. (2019) Radiation damage in β -Ga 2 O 3 induced by swift heavy ions . Japanese Journal of Applied Physics 58:12, pages 120914.
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W. Wesch, J. Rensberg, M. Schmidt & E. Wendler. (2019) Damage evolution in LiNbO3 due to electronic energy deposition below the threshold for direct amorphous track formation. Journal of Applied Physics 126:12.
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Sushant Gupta, V. Ganesan, Indra Sulania & B. Das. (2017) Role of carrier concentration in swift heavy ion irradiation induced surface modifications. Surface Science 664, pages 137-146.
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N Sellami, M L Crespillo, H Xue, Y Zhang & W J Weber. (2017) Role of atomic-level defects and electronic energy loss on amorphization in LiNbO 3 single crystals . Journal of Physics D: Applied Physics 50:32, pages 325103.
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M.L. Crespillo, F. Agulló-López & A. Zucchiatti. (2017) Cumulative approaches to track formation under swift heavy ion (SHI) irradiation: Phenomenological correlation with formation energies of Frenkel pairs. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 394, pages 20-27.
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P. Liu, Y. Zhang, H. Xue, K. Jin, M.L. Crespillo, X. Wang & W.J. Weber. (2016) A coupled effect of nuclear and electronic energy loss on ion irradiation damage in lithium niobate. Acta Materialia 105, pages 429-437.
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Christian Dufour & Marcel Toulemonde. 2016. Ion Beam Modification of Solids. Ion Beam Modification of Solids 63 104 .
Marco Bazzan & Cinzia Sada. (2015) Optical waveguides in lithium niobate: Recent developments and applications. Applied Physics Reviews 2:4.
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A.S. El-Said, R.A. Wilhelm, S. Facsko & C. Trautmann. (2013) Surface nanostructuring of LiNbO3 by high-density electronic excitations. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 315, pages 265-268.
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M. Toulemonde, A. Benyagoub, C. Trautmann, N. Khalfaoui, M. Boccanfuso, C. Dufour, F. Gourbilleau, J. J. Grob, J. P. Stoquert, J. M. Costantini, F. Haas, E. Jacquet, K.-O. Voss & A. Meftah. (2013) Reply to “Comment on ‘Dense and nanometric electronic excitations induced by swift heavy ions in an ionic CaF crystal: Evidence for two thresholds of damage creation’ ” . Physical Review B 87:5.
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J. Lamela, G. Lifante, T.P.J. Han, F. Jaque, A. García-Navarro, J. Olivares & F. Agulló-López. (2009) Morphology of ablation craters generated by fs laser pulses in LiNbO3. Applied Surface Science 255:7, pages 3918-3922.
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A. García-Navarro, F. Agulló-López, J. Olivares, J. Lamela & F. Jaque. (2008) Femtosecond laser and swift-ion damage in lithium niobate: A comparative analysis. Journal of Applied Physics 103:9.
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T Ruiz, A Méndez, M Carrascosa, J Carnicero, A García-Cabañes, J Olivares, F Agulló-López, A García-Navarro & G García. (2007) Tailoring of refractive index profiles in LiNbO 3 optical waveguides by low-fluence swift-ion irradiation . Journal of Physics D: Applied Physics 40:15, pages 4454-4459.
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A. García-Navarro, A. Méndez, J. Olivares, G. García, F. Agullo-López, M. Zayat, D. Levy & L. Vazquez. (2006) Morphology of ion tracks and nanopores in LiNbO3 produced by swift-ion-beam irradiation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 249:1-2, pages 172-176.
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R. González-Arrabal, V.A. Khodyrev, N. Gordillo, G. García & D.O. Boerma. (2006) The Coulomb explosion of swift molecules under channeling conditions . Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 249:1-2, pages 65-68.
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G. García, F. Agulló-López, J. Olivares-Villegas & A. García-Navarro. (2006) Monte Carlo simulation of damage and amorphization induced by swift-ion irradiation in LiNbO3. Journal of Applied Physics 99:5.
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J. Olivares, G. García, F. Agulló-López, F. Agulló-Rueda, J.C. Soares & A. Kling. (2006) Optical investigation of the propagation of the amorphous–crystalline boundary in ion-beam irradiated LiNbO3. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 242:1-2, pages 534-537.
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J. Olivares, G. García, F. Agulló-López, F. Agulló-Rueda, A. Kling & J.C. Soares. (2005) Generation of amorphous surface layers in LiNbO3 by ion-beam irradiation: thresholding and boundary propagation. Applied Physics A 81:7, pages 1465-1469.
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J. C. Pivin, S. Esnouf, F. Singh & D. K. Avasthi. (2005) Investigation of the precipitation kinetics and changes of magnetic anisotropy of iron particles in ion-irradiated silica gel films by means of electron-spin resonance. Journal of Applied Physics 98:2.
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J.C. Pivin, D.K. Avasthi, F. Singh, A. Kumar, E. Pippel & G. Sagon. (2005) Precipitation of C, Si and metals nanoparticles in silicon-based gels induced by swift heavy ion irradiation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 236:1-4, pages 73-80.
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J. Olivares, G. García, A. García-Navarro, F. Agulló-López, O. Caballero & A. García-Cabañes. (2005) Generation of high-confinement step-like optical waveguides in LiNbO3 by swift heavy ion-beam irradiation. Applied Physics Letters 86:18.
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F. Agulló-López, G. García & J. Olivares. (2005) Lattice preamorphization by ion irradiation: Fluence dependence of the electronic stopping power threshold for amorphization. Journal of Applied Physics 97:9.
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O. Caballero, A. García-Cabañes, J. Carnicero, M. Carrascosa, F. Agulló-López, J. Olivares, A. García-Navarro & G. García. (2005) Non-linear and photorefractive characterisation of highly confined LiNbO3 waveguides prepared by high-energy, low-fluence ion irradiation. Non-linear and photorefractive characterisation of highly confined LiNbO3 waveguides prepared by high-energy, low-fluence ion irradiation.
W. Wesch, A. Kamarou & E. Wendler. (2004) Effect of high electronic energy deposition in semiconductors. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 225:1-2, pages 111-128.
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B. Canut, P. Thevenard & C. Jardin. (2004) Nanotip processing on TiO2 surfaces irradiated with fullerenes in the electronic regime. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 218, pages 487-491.
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T. Mohanty, N.C. Mishra, F. Singh, S.V. Bhat & D. Kanjilal. (2003) Color center formation in sapphire by swift heavy ion irradiation. Radiation Measurements 36:1-6, pages 723-727.
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G. Szenes. (2000) Analysis of tracks induced by cluster ions in . Physical Review B 61:21, pages 14267-14270.
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Paul A. Thevenard, Jean-Pierre Dupin, Binh Vu Thien, Stephen T. Purcell & Vincent Semet. (2000) Nanotips prepared by ion or cluster impacts for flat panel displays. Surface and Coatings Technology 128-129, pages 59-65.
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G. Szenes, F. Pászti, Á. Péter & A.I. Popov. (2000) Tracks induced in TeO2 by heavy ions at low velocities. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 166-167, pages 949-953.
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T. Aruga, Y. Katano, T. Ohmichi, S. Okayasu & Y. Kazumata. (2000) Amorphization behaviors in polycrystalline alumina irradiated with energetic iodine ions. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 166-167, pages 913-919.
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P Thevenard, J.P Dupin, Vu Thien Binh, S.T Purcell, V Semet & D Guillot. (2000) Electron emission devices formed by energetic cluster impacts on TiO2 rutile. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 166-167, pages 788-792.
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G. Szenes. (1999) Amorphous tracks in insulators induced by monoatomic and cluster ions. Physical Review B 60:5, pages 3140-3147.
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B. Canut, N. Bonardi, S.M.M. Ramos & S. Della-Negra. (1998) Latent tracks formation in silicon single crystals irradiated with fullerenes in the electronic regime. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 146:1-4, pages 296-301.
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