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Solids radiation effects

Naguib HM, Kelly R (1975) Criteria for bombardment-induced stractural changes in non-metallic solids. Radiation Effects 25 1-12... [Pg.358]

Nasu Saburo Mossbauer Study of Defects and Local Structure in Solids. Radiation Effects Defects in Solids 148, 181—190 (1999)... [Pg.21]

Voter, A.F. Introduction to the kinetic Monte Carlo method, In Radiation Effects in Solids (eds K.E. Sickafus, E.A. Kotomin and B.P. Uberuaga), Springer, NATO Publishing Unit, Dordrecht, The Netherlands, 2006, pp. 1-24. [Pg.97]

G.J. Dienes G.H. Vineyard, Radiation Effects in Solids , Inter science (1957)... [Pg.92]

Abbott, "Radiation Effects on Solid Propellants An Annotated Bibliography , Rept LMSC-LS-66-17, Lockheed Missiles Space Co, Palo Alto (1966) (AD-487137) 172) J.A. Berberet,... [Pg.96]

Herley et al, Recent Radiation Effect Studies on Ammonium Perchlorate. Part II The Effect of Fast Neutron, Gamma Ray and Combined Radiation on the Thermal Decompositions of- Ammonium Perchlorate Powder—Aluminum Particle Mixtures , Ibid, paper 2.2b, pp 301—15 (1975) 242) W.D. Hutchinson, Neutron Effects on Solid Propellants , Ibid, paper 2.6, pp 281-99 (1975) 243) R.A. Benham F.H. Mathews,... [Pg.99]

Solid TNT also undergoes change on exposure to light (see Vol 7, LI4 and under Radiation Effects in this Vol) trinitrobenzoic acid has been identified as a product... [Pg.750]

The Radiation Effects Research Foundation s Life Span Study of atomic bomb survivors has reported that for all solid tumours combined, there is clear evidence of a radiation dose-response relationship. Both excess relative risk and excess absolute risk are larger for individuals exposed as children than for those exposed as adults, and solid tumour risk continues to increase in later years (Kodama et al., 2003). Survivors of the atomic bombs also have increased risk of all kinds of solid tumours, including those of adult life, although the degree of susceptibility varies with age at the time of the bombings and is generally highest early in life. [Pg.123]

T. Diaz de la Rubia, G. H. Gilmer, and M.-J. Caturla, Computer Simulation of Radiation Effects in Solids. Proceedings of the Second International Conference on Computer Simulation of Radiation Effects in Solids, Santa Barbara, CA, July 24-29, 1994, in Nucl. Instrum. Methods Phys. Res., Sect. B, 102 (1-4), North-Holland, Amsterdam, The Netherlands, 1995. [Pg.342]

The present paper reviews the application of ion beams with energy above 10 keV to polymers and describes our recent work on the radiation effects of ion beams on solid polystyrene films studied by solubility change and time-resolved spectroscopy. [Pg.100]

Optical radiation - especially in the infrared range - can be absorbed by combustible gases and vapours by oscillatory transitions of the molecules and cause an increase in temperature. In addition, the radiation may be absorbed by non-metallic solids and effect a temperature rise up to a value sufficient to ignite them or the surrounding gas-air or vapour-air mixtures. [Pg.25]

Faisal FHM (1987) Theory of Multiphoton Processes. Plenum Press, New York see also Cohen-Tannoudji C, Dupont-Roc J, GrynbergG(1989) Photons and Atoms, Wiley, New York various articles on strong-field laser interaction especially by Faisal FHM. p. 27 and by Shih-I Chu p. 57 (1991) in Radiation Effects and Defects in Solids. Part 1, 122-123 Ullrich CA, Grossman UJ, Gross EKU (1994) Phys Rev Lett 74 872 Buot FA, Jensen KL (1990) Phys Rev B42 9429... [Pg.208]

In real-world applications, the importance of interfaces is hard to overestimate and three chapters are devoted to the effects of radiation at aqueous-solid boundaries. Jonsson focuses on applications within the nuclear industry where basic studies on radiation effects at water-metal interfaces have enabled a proposal for safe storage of spent nuclear fuel. Also with implications for the nuclear industry, Musat et al. document alterations in the radiation chemistry of liquid water confined on the nanoscale. Such nanoconfmed solutions are prevalent in the media proposed and indeed in use for waste storage. In another application, radiation chemistry has successfully been used to produce nanoscale objects such as metallic clusters and nanoparticles, an area summarized by Remita and Remita. [Pg.619]

G. J. Dienes, G. H. Vineyard, Radiation Effects in Solids, Interscience, London, 1957 A. J. Swallow, Radiation Chemistry of Organic Compounds, Pergamon, Oxford, 1960 A. Charlesby, Atomic Radiation and Polymers, Pergamon, Oxford, 1960... [Pg.393]

In this chapter studies of the effects of ion bombardment on solids, especially compounds, will be reviewed. The first section is concerned with the radiation effects induced by energetic ions, the second with the chemical state and the reactions of the implanted ions themselves. [Pg.46]

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See also in sourсe #XX -- [ Pg.382 ]



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