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Philosophical Magazine A Volume 51, 1985 - Issue 5
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Original Articles

The influence of helium doping on the damage microstructure of heavy-ion irradiated α-Al2O3

W. E. Lee Department of Metallurgy and Science of Materials, University of Oxford, Parks Road, Oxford, OX1 3PH, England; Department of Metallurgy and Materials Science, Case Western Reserve University, Cleveland, Ohio, 44106, U.S.A.
,
M. L. Jenkins Department of Metallurgy and Science of Materials, University of Oxford, Parks Road, Oxford, OX1 3PH, England
&
G. P. Pells Metallurgy Division, AERE, Harwell, Oxfordshire, OX11 0RA, England
Pages 639-659 | Received 04 Jun 1984, Accepted 13 Nov 1984, Published online: 01 Dec 2006

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K. Yasuda, T. Higuchi, K. Shiiyama, C. Kinoshita, K. Tanaka & M. Kutsuwada. (2003) Effects of the electric field on the aggregation of point defects in ion-irradiated α-Al 2 O 3. Philosophical Magazine Letters 83:1, pages 21-28.
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Z. Zhu & P. Jung. (1998) Effect of stress and point defect retention on straining of refractories under irradiation. Radiation Effects and Defects in Solids 144:1-4, pages 85-104.
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W.E. Lee, T.E. Mitchell & A.H. Heuer. (1986) Electron beam-induced phase decompositiqn of cordierite and enstatite. Radiation Effects 97:1-2, pages 115-126.
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Articles from other publishers (34)

Christian M. Petrie, Anthony Birri & Thomas E. Blue. (2022) Optical transmission and dimensional stability of single-crystal sapphire after high-dose neutron irradiation at various temperatures up to 688 °C. Journal of Nuclear Materials 559, pages 153432.
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A. Bhattacharya, C.M. Parish, T. Koyanagi, C.M. Petrie, D. King, G. Hilmas, W.G. Fahrenholtz, S.J. Zinkle & Y. Katoh. (2019) Nano-scale microstructure damage by neutron irradiations in a novel Boron-11 enriched TiB2 ultra-high temperature ceramic. Acta Materialia 165, pages 26-39.
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S.J. Zinkle. (2012) Effect of H and He irradiation on cavity formation and blistering in ceramics. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 286, pages 4-19.
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L.H. Zhou, C.H. Zhang, Y.T. Yang & B.S. Li. (2010) Enhanced photoluminescence of Ar+ implanted sapphire before and after annealing. Journal of Luminescence 130:2, pages 226-230.
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Chiken Kinoshita. 2007. Radiation Effects in Solids. Radiation Effects in Solids 193 232 .
Chiken Kinoshita, Syo Matsumura, Kazuhiro Yasuda & Mikio Shimada. (2004) Effects of simultaneous displacive and ionizing radiations and of electric field on radiation damage in ionic crystals. Metallurgical and Materials Transactions A 35:8, pages 2257-2266.
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T. Higuchi, K. Yasuda, K. Tanaka, K. Shiiyama & C. Kinoshita. (2003) Ion-beam induced defect formation in α-alumina with applied electric field. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 206, pages 103-108.
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B. J. Kooi, A. van Veen, J. Th. M. De Hosson, H. Schut, A. V. Fedorov & F. Labohm. (2000) Rectangular nanovoids in helium-implanted and thermally annealed MgO(100). Applied Physics Letters 76:9, pages 1110-1112.
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Jihong Li, Steven R. Nutt & Kevin W. Kirby. (2004) Surface Modification of Sapphire by Magnesium‐Ion Implantation. Journal of the American Ceramic Society 82:11, pages 3260-3262.
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N Sasajima, T Matsui, S Furuno, K Hojou & H Otsu. (1999) Damage accumulation in Al2O3 during H2+ or He+ ion irradiation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 148:1-4, pages 745-751.
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Y. Katano, T. Nakazawa, D. Yamaki, T. Aruga & K. Noda. (1998) Damage structure evolution in Al2O3 irradiated with multiple ion beams of H, He and O and after annealing. Journal of Nuclear Materials 258-263, pages 1842-1847.
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S Furuno, N Sasajima, K Hojou, K Izui, H Otsu & T Matsui. (1998) Radiation effects on Al2O3 irradiated with H2+ ions. Journal of Nuclear Materials 258-263, pages 1817-1821.
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S.J Zinkle & G.P Pells. (1998) Microstructure of Al2O3 and MgAl2O4 irradiated at low temperatures. Journal of Nuclear Materials 253:1-3, pages 120-132.
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C. Kinoshita, S. Matsumura, K. Yasuda, T. Soeda & M. Noujima. (2011) Irradiated Microstructures of Magnesium Aluminate Spinel and their Controlling Factors. MRS Proceedings 540.
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J. D. Budai, C. W. White, S. P. Withrow, M. F. Chisholm, J. Zhu & R. A. Zuhr. (1997) Controlling the size, structure and orientation of semiconductor nanocrystals using metastable phase recrystallization. Nature 390:6658, pages 384-386.
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Chiken Kinoshita & Steven J. Zinkle. (1996) Potential and limitations of ceramics in terms of structural and electrical integrity in fusion environments. Journal of Nuclear Materials 233-237, pages 100-110.
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Yoshio Katano, Tetsuya Nakazawa, Daiju Yamaki, Takeo Aruga & Kenji Noda. (1996) Microstructural evolution of single crystalline Al2O3 irradiated with single and triple ion beams. Journal of Nuclear Materials 233-237, pages 1325-1331.
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Y. Katano, T. Nakazawa, D. Yamaki, T. Aruga, K. Hojou & K. Noda. (1996) Effects of dual and triple beam irradiation with O, He and H-ions on damage structures in single crystal Al2O3. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 116:1-4, pages 230-234.
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Tatsuo Shikama & G.Philip Pells. (1994) A comparison of the effects of neutron and other irradiation sources on the dynamic property changes of ceramic insulators. Journal of Nuclear Materials 212-215, pages 80-89.
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Reiji Yamada, Steven J. Zinkle & G. Philip Pells. (1994) Microstructure of Al2O3 and MgAl2O4 preimplanted with H, He, C and irradiated with Ar+ ions. Journal of Nuclear Materials 209:2, pages 191-203.
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George Philip Pells. (2005) Radiation Damage Effects in Alumina. Journal of the American Ceramic Society 77:2, pages 368-377.
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G P Pells. (2011) Radiation Effects in Ceramic Insulators. MRS Proceedings 373.
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E. D. Specht, D. A. Walko & S. J. Zinkle. (2011) Density Reduction: A Mechanism For Amortization at High Ion Doses. MRS Proceedings 321.
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E.D. Specht, D.A. Walko & S.J. Zinkle. (2011) Density Reduction: A Mechanism for Amorphization at High Ion Doses. MRS Proceedings 316.
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Reiji Yamada, Steven J. Zinkle & G. Philip Pells. (1992) Defect formation in ion-irradiated Al2O3 and MgAl2O4: effects of grain boundaries and fusion transmutation products. Journal of Nuclear Materials 191-194, pages 640-644.
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P. S. Sklad, C. J. McHargue, C. W. White & G. C. Farlow. (1992) Analytical electron microscopy of Al2O3 implanted with iron ions. Journal of Materials Science 27:21, pages 5895-5904.
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S. J. Zinkle, C. P. Haltom, L. C. Jenkins & C. K. H. DuBose. (2005) Technique for preparing cross‐section transmission electron microscope specimens from ion‐irradiated ceramics. Journal of Electron Microscopy Technique 19:4, pages 452-460.
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R.A. Youngman, T.E. Mitchell, F.W. ClinardJr.Jr. & G.F. Hurley. (2011) High dose neutron irradiation damage in alpha alumina. Journal of Materials Research 6:10, pages 2178-2187.
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S.J. Zinkle & S. Kojima. (1991) Helium-assisted cavity formation in ion-irradiated ceramics. Journal of Nuclear Materials 179-181, pages 395-398.
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P. A. Knight, M. L. Jenkins & G. P. Pells. (2011) Ion Irradiation Damage In MgAl 2 O 4 and Al 23 O 27 N 5 Ceramics . MRS Proceedings 152.
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C.W. White, C.J. McHargue, P.S. Sklad, L.A. Boatner & G.C. Farlow. (1989) Ion implantation and annealing of crystalline oxides. Materials Science Reports 4:2, pages 41-146.
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G.P. Pells. (1988) Radiation effects and damage mechanisms in ceramic insulators and window materials. Journal of Nuclear Materials 155-157, pages 67-76.
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S. J. Zinkle. (2011) Microstructural Characterization of Al 2 O 3 Following Simultaneous Triple Ion Bombardment . MRS Proceedings 128.
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J. Bentley. (1986) A review of the application of analytical electron microscopy to ion-implanted materials. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 16:2-3, pages 111-125.
Crossref

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