Glass simulation

Berg, B. A. Celik, T., New approach to spin-glass simulations, Phys. Rev. Lett. 1992, 69, 2292-2295... [Pg.117]

Hukushima, K. Nemoto, K., Exchange Monte Carlo method and application to spin glass simulations, J. Phys. Soc. Jpn. 1996, 65, 1604—1608... [Pg.315]

K. Hukushima and K. Nemoto. Exchange monte carlo method and application to spin glass simulations. Journal of the Physical Society of Japan, 65 1604-1608,... [Pg.571]

Stefanovsky, S. V. Dmitriev, S. A. 1995. EPR of radiation centers in ion-implanted glasses simulating vitrified radioative wastes. In Slate, S., Feizollahi, F. Creer, J. (eds) Proceedings of the Fifth International Conference on Radioactive Waste Management and Environmental Remediation. ASME, New York, 1, 409-411. [Pg.56]

Swirls of colour in an item that is cold to the touch indicate a ass simulant, thou some shdls are also variegated in colour. Complete lack of structure in an item that is cold to the toudi indicates a glass simulant, or reconstituted coral material. Complete lack of structure in an item that is warm to the touch indicates a plastic simulant (Fig, 11.22). [Pg.212]

Luckscheiter and Kienzler (2001) examined uranyl sorption onto corroded HEW glass simulant in deionized water, 5.5 M NaCl and 5.0 M MgCl2, and found that sorption was greatly inhibited by the magnesium-rich brine, while the NaCl brine had little effect. Uranyl sorption at high ionic strength was also studied by Vodrias and Means (1993), who examined uranyl sorption... [Pg.4775]

Gelb, L.D. and Gubbins, K.E. (1998). Characterization of porous glasses simulation models, adsorption isotherms, and the BET analysis method. Langmuir, 14, 2097-111. [Pg.132]

Finally, since they do not consider bonds, ion pair potentials are able to describe changes in coordination. In some areas, notably geophysical and glass simulations, this capability can be important because it allows the study of phase transitions, as we shall mention later in connection with applications. [Pg.160]

A trend in modern MD (and MC) simulations is to enhance system equilibration at low temperatures by the use of novel parallel techniques. One such technique which has recently attracted considerable attention in different variations is parallel tempering (PT) [47,48]. PT was introduced in the context of spin glass simulations, but the real efficiency of the method was demonstrated in a variety of cases, such as in the study of the conformational properties of complex biological molecules [49,50]. Sugita... [Pg.217]

A. Pedone, T. Charpentier, M.C. Menziani, Multinuclear NMR of CaSi03 glass simulation from first-principles. Phys. Chem. Chem. Phys. 12,6054-6066 (2010)... [Pg.134]

L.R. Corrales, J. Du, Thermal kinetics of glass simulations. Phys. Chem. Glasses 46,420-424 (2005)... [Pg.179]

A. Tilocca, Cooling rate and size effects on the medium-range structure of multicomponent oxide glasses simulated by molecular dynamics. J. Chem. Phys. 139,114501 (12 pp) (2013)... [Pg.179]

L. Kokou, J. Du, Rare earth ion clustering behavior in europium doped silicate glasses simulation size and glass structure effect. J. Non-Cryst. Solids 358, 3408-3417 (2012)... [Pg.179]

Test 8 - Automobile Glass (20 yards) This test repeats Test 6 but at 20 yards from the muzzle to the front of the glass, and without the 15-degree offset. The shot is made from straight in front of the glass, simulating a shot at the driver of a car bearing down on the shooter. [Pg.178]

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