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Philosophical Magazine A Volume 65, 1992 - Issue 4
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Original Articles

Production bias due to clustering of point defects in irradiation-induced cascades

C. H. Woo AECL—Research, Whiteshell Laboratory, Pinawa, Manitoba, Canada, R0E 1L0
&
B. N. Singh Materials Department, Ris⊘ National Laboratory, DK-4000, Roskilde, Denmark
Pages 889-912 | Received 17 May 1991, Accepted 25 Jun 1991, Published online: 20 Aug 2006

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Yu. N. Osetsky , D. J. Bacon, Z. Rong & B. N. Singh. (2004) Dynamic properties of edge dislocations decorated by interstitial loops in α-iron and copper. Philosophical Magazine Letters 84:11, pages 745-754.
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H. L. Heinisch & B. N. Singh. (2003) Kinetic Monte Carlo simulations of void lattice formation during irradiation . Philosophical Magazine 83:31-34, pages 3661-3676.
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A.V. Barashev, S.I. Golubov & H. Trinkaus. (2001) Reaction kinetics of glissile interstitial clusters in a crystal containing voids and dislocations. Philosophical Magazine A 81:10, pages 2515-2532.
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C.H. Woo & C.B. So. (2000) The effect of stress on point-defect diffusion in hep metals and irradiation creep. Philosophical Magazine A 80:6, pages 1299-1318.
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B.N. Singh. (1999) Atomic displacements and defect accumulation during irradiation with energetic particles: An autobiographical review. Radiation Effects and Defects in Solids 148:1-4, pages 383-446.
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C.H. Woo. (1998) Modeling irradiation growth of zirconium and its alloys. Radiation Effects and Defects in Solids 144:1-4, pages 145-169.
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D.J. Bacon, A.F. Calder & F. Gao. (1997) Computer simulation of displacement cascade effects in metals. Radiation Effects and Defects in Solids 141:1-4, pages 283-310.
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B.N. Singh, A.J. E. Foreman & H. Trinkaus. (1994) Production bias driven defect accumulation in the transient regime. Plasma Devices and Operations 3:1-2, pages 115-129.
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H.L. Heinisch & B.N. Singh. (1993) On the structure of irradiation-induced collision cascades in metals as a function of recoil energy and crystal structure. Philosophical Magazine A 67:2, pages 407-424.
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