References
- 1. ZHANG, Y., VARGA, T., ISHIMARU, M., EDMONDSON, P.D., XUE, H., LIU, P., MOLL, S., NAMAVAR, F., HARDIMAN, C., SHANNON, S., WEBER, W. J. 2014. Competing effects of electronic and nuclear energy loss on microstructural evolution in ionic-covalent materials. Nuclear Instruments and Methods in Physics Research B, Vol. 327, pp 33-43.
- 2. Jensen, J., Razpet, A., Skupiński, M., Possnert, G. 2006. Ion tracks in amorphous SiO2 irradiated with low and high energy heavy ions. Nuclear Instruments and Methods in Physics Research B, 245, pp. 269-273.
- 3. FLEISCHER, R. L., PRICE, P. B., WALKER, R. M. 1965. Phys. Rev. 136, 3645.
- 4. SEITZ, F., KOEHLER, J. S. 1956. Sol. Stat. Phys., Vol. 2. Ed. F.Seitz and D.Turnbull. Acad. Press, N.-Y., p. 307.
- 5. TOULEMONDE, M., PAUMIER, E. C., DUFOUR. 1993. Rad. Eff. and Def. in Solids 126, 201.
- 6. KEN-ICHI NOMURA, Y. OHKI, M. FUJIMAKI, X. WANGA, K. AWAZU, T. KOMATSUBARA. 2012. A study of the critical factor determining the size of etched latent tracks formed on SiO2 glass by swift-Clion irradiation. Nuclear Instruments and Methods in Physics Research B, Vol. 272, pp. 1-4.
- 7. HUANG, D. H., APOSTOLOVA, T., ALSING, P. M., CARDIMONA, D. A. 2004. Phys. Rev. B 69, 075214.
- 8. CARRON, N. J. 2007. An Introduction to the Passage of Energetic Particles through Matter. New York - London: Taylor and Francis Group.
- 9. SIGMUND, P. 2004. Stopping of Heavy Ions. Springer Tracts of Modern Physics, Vol. 204. Berlin: Springer.
- 10. MAYER, M. SIMNRA a program for the simulation of backscattering spectra for ion beam analysis with MeV ions (http://home.rzg.mpg.de/~mam/)
- 11. BOUFFARD, S., GERVAIS, B., LEROY, C. 1995. Basic phenomena induced by SHI in polymers. Nucl. Instrum. Methods B, 105:1-4.
- 12. SINGH, J.P., SINGH, R., GHOSH, S., TRIPATHI, A., KABIRAJ, D., GUPTA, S., SOM, T., KUMAR, R., ARORA, S.K., ASOKAN, K., AVASTHI, D.K., KANJILAL, D., MISHRA, N.C., MEHTA, G.K. 1999. Swift heavy ion-based materials science research at NSC. Nucl. Instrum. Methods B, 156, 206211.
- 13. VOLKOV, A. E., BORODIN, V.A. 2002. Effects of relaxation of electronic excitations from SHI in amorphous targets. Nucl. Instrum. Methods B, 193:381-390.
- 14. CERCIGNANI, I. C. 1988. The Boltzmann Equation and its Applications, Springer, New York, (2.1988).
- 15. LLOYD, J., NIEMEYER, M., RONDONI, L. and MORRISS. G. P. 1995. The nonequilibrium Lorentz gas. In: CHAOS, 5 (3).
- 16. GROPPI, M., SPIGA, G. 2002. The Linear Boltzmann Equation with Inelastic Scattering. In: Applied Mathematics Letters, 15, 29-34.
- 17. ALEXEEV, B. V., CHIKHAOUI, A. J., MBOLANS, G., GRUSHIN, J. T. AND GRUSHINA, L. P. 1994. Generalized Chapman-Enskog method in the kinetic theory of reacting ionized gases. Phys. Plasmas, Vol. 1, No. 10.
- 18. LUTSKO, J. F. 2006. Chapman-Enskog expansion about nonequilibrium states with application to the sheared granular fluid. Physical Review, 73, 021302.
- 19. KARLIN, I.V. 2000. Exact summation of the Chapman-Enskog expansion from moment equations. J. Phys. A: Math. Gen. 33, 8037-8046.
- 20. ELLIS, R.S. 1973. Chapman-Enskog-Hilbert Expansion for a Markovian Model of the Boltzmann Equation. Comm on Pure and Applied Mathematics, Vol. 26, 327-359.