References
- Bardash M., Zaider M. A stochastic treatment of radiation damage to DNA from indirect effects. Radiation Protection Dosimetry 1994; 52: 171–176
- Fung A.Y.C., Zaider M. Energy-loss function for biological materials: polycytosine. Radiation Protection Dosimetry 1994; 52: 111–117
- Kampf G. Induction of DNA double-strand breaks by ionizing radiation of different quality and their relevance for cell inactivation. Radiobiology and Radiotherapy 1988; 29: 631–658
- Milligan J.R., Aguilera J.A., Ward J.F. Variation of single-strand break yield with scavenger concentration for plasmid DNA irradiated in aqueous solution. Radiation Research 1993; 133: 158–162
- Pines D., Nozieres P. The Theory of Quantum Liquids. Benjamin, New York 1966
- Powell S., McMillan T.J. DNA damage and repair following treatment with ionizing radiation. Radiotherapy and Oncology 1990; 19: 95–108
- Roots R., Okada S. Estimation of life times and diffusion distances of radicals involved in x-ray-induced DNA strand breaks of killing of mammalian cells. Radiation Research 1975; 64: 306–320
- Schattschneider P. Fundamentals of Inelastic Electron Scattering. Springer, New York 1986
- Williams M.W., Arakawa E.T. Optical and dielectric properties of materials relevant to biological research. Handbook on Synchrotron Radiation. Elsevier, New York 1990, In
- Zaider M. A mathematical formalism describing the yield of radiation-induced single- and double-strand breaks, and its dependency on radiation quality. Radiation Research 1993; 134: 1–8
- Zaider M., Brenner D.J. On the stochastic treatment of fast chemical reactions. Radiation Research 1984; 100: 245–256
- Zaider M., Fry J.L., Orr D.E. Towards an ab initio evaluation of the wave vector and frequency dependent dielectric response function for crystalline water. Radiation Protection Dosimetry 1990; 31: 23–28