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  • Akhmanov, S. A., A. P. Sukhorukov, and R. V. Khokhlov (1968), Self-focusing and diffraction of light in a nonlinear medium, Sov. Phys. Usp. Engl. Transl., 10, 609.
  • Bailey, V. A., and D. F. Martin (1934), The influence of electric waves on the ionosphere, Philos. Mag., 18, 369.
  • Beech, R., and F. Osman (2005), Radiation reduction of optical solitons resulting from higher order dispersion terms in the nonlinear Schrödinger equation, Laser Particle Beams, 23, 483.
  • Belikovich, V. V., E. A. Benediktov, V. A. Ziuzin, G. P. Komrakov, and M. I. Krasil'Nikov (1990), Phase perturbation of high-intensity radio waves reflected from the F-region of the ionosphere, Radiofizika, 33, 143.
  • Blagoveshchenskaya, N. F., A. D. Andre, and V. A. Kornienko (1995), Ionospheric wave processes during HF heating experiments, Adv. Space Res., 15(12), 45.
  • Corozzi, T. D. (2000), Radio waves in the ionosphere: Propagation, generation and detection, IRF Sci. Rep. 272, Swed. Inst. of Space Phys., Uppsala, Sweden.
  • Djuth, F. T., T. R. Pedersen, E. A. Gerken, P. A. Bernhardt, C. A. Selcher, W. A. Bristow, and M. J. Kosch (2004), Ionospheric modification at twice the electron cyclotron frequency, Phys. Rev. Lett., 94, 125001.
  • Esarey, E., P. Sprangle, J. Krall, and A. Ting (1997), Self focusing and guiding of short laser pulses in ionizing gases and plasmas, IEEE J. Quantum Electron., 33, 1879.
  • Fejer, J. A. (1955), Interaction of pulsed radio waves in the ionosphere, J. Atmos. Terr. Phys., 7, 322.
  • Getmantsev, G. G., N. A. Zuikov, D. S. Kotik, L. F. Mironenko, N. A. Mityakov, V. O. Rapoport, Y. A. Sazonov, V. Y. Trachtengerts, and V. Y. Eidman (1974), Combination frequencies in the interaction between high-power short-wave radiation and ionospheric plasma, Sov. Phys. JETP Lett., Engl. Transl., 20, 101.
  • Ginzburg, V. L., and A. V. Gurevich (1960), Nonlinear phenomena in a plasma located in an alternating electric field, Sov. Phys. Usp., Engl. Transl., 3, 115.
  • Golov, P. I., and A. N. Kochubei (1988), Self-focusing and nonlinear refraction in the high-latitude ionosphere in the case of energy transmission by a microwave beam, Radiotekh. Elektron., 33, 1793.
  • Gondarenko, N. A., S. L. Ossakow, and G. M. Milikh (2005), Generation and evolution of density irregularities due to self-focusing in ionospheric modifications, J. Geophys. Res., 110, A09304, doi:10.1029/2005JA011142.
  • Gurevich, A. V. (1978), Nonlinear Phenomena in the Ionosphere, Springer, New York.
  • Gurevich, A. V., G. M. Milikh, and I. S. Shlyuger (1976), Non-linear thermal focusing of radio waves in the lower ionosphere, Geomagn. Aeron., Engl. Transl., 16, 366.
  • Guzdar, P. N., P. K. Chaturvedi, K. Papadopoulos, and S. L. Ossakow (1998), The thermal self-focusing instability near the critical surface, in the high-latitude ionosphere, J. Geophys. Res., 103, 2231.
  • Guzdar, P. N., N. A. Gondarenko, G. M. Milikh, A. S. Sharma, K. Papadopoulos, and S. L. Ossakow (1999), Generation of large scale ionospheric irregularities due to HF-heating, Radiophys. Quantum Electron., Engl. Transl., 42, 670.
  • Hauser, T., W. Scheid, and H. Hora (1988), Analytical calculation of relativistic self focusing, J. Opt. Soc. Am. B Opt. Phys., 5, 2029.
  • Honary, F., A. J. Stocker, T. R. Robinson, T. B. Jones, and P. Stubbe (1995), Ionospheric plasma response to HF radio waves operating at frequencies close to electron gyro harmonics, J. Geophys. Res., 100, 21,489.
  • Hora, H. (1969), Self-focusing of laser beams in a plasma by ponderomotive forces, Z. Phys., 226, 156.
  • Hora, H. (1991), Plasmas at Higher Temperature and Density, Springer, New York.
  • Hora, H., E. L. Kane, and J. L. Hughes (1978), Generation of MeV and GeV ions by relativistic self focusing from laser irradiated targets, J. Appl. Phys., 49, 923.
  • Keskinen, M. J., and S. Basu (2003), Thermal self-focusing instability in the high-latitude ionosphere, Radio Sci., 38(6), 1095, doi:10.1029/2003RS002906.
  • Kuo, S. P., and J. Huang (1994), Nonlinear wave phenomena in ionospheric modification by powerful radio waves, Phys. Fluids, 1, 357.
  • Kuo, S. P., and S. H. Lee (2004), Generation of extremely low frequency radiation by ionospheric electrojet modulation using powerful high-frequency heating waves, Radio Sci., 39, RS1S32, doi:10.1029/2002RS002806.
  • Kuo, S. P., S. H. Lee, D. Bivolaru, P. Kossey, M. C. Lee, R. J. Riddolls, and D. Sentman (2003), Experimental and numerical studies on ELF/VLF wave generation by amplitude modulated HF heating waves, Phys. Scr., 67, 448.
  • Laxmi, V. N., and V. K. Tripathi (1992), Effect of radio frequency waves on ionospheric irregularities, Reviews in Contemporary Physics: Plasma Physics, edited by R. Kamal, K. P. Maheshwari, and R. L. Sawhney, p. 1, John Wiley, Hoboken, N. J.
  • Litvak, A. G. (1968), Possibility of self-focusing of electromagnetic wave in the ionosphere, Izv. Vyssh. Ucheb. Zaved Radiofiz., 11, 1433.
  • Maslin, N. M. (1975), Theory of the modifications imposed on the ionospheric plasma by a powerful radio wave reflected in the D or E region, Proc. R. Soc. London, Ser. A, 343, 109.
  • Morales, G. J. (1987), RF heating the ionosphere, AIP Conf. Proc., 159, 450.
  • Osman, F., R. Castillo, and H. Hora (2000), Focusing and defocusing of the nonlinear paraxial equation at laser-plasma interaction, Laser Particle Beams, 18, 73.
  • Osman, F., R. Beech, and H. Hora (2004), Solutions of the nonlinear paraxial equation due to laser plasma-interactions, Laser Particle Beams, 22, 69.
  • Palmer, A. J. (1971), Stimulated scattering and self-focusing in laser-produced plasmas, Phys. Fluids, 14, 2714.
  • Papadopoulos, K., T. Wallace, M. McCarrick, G. M. Milikh, and X. Yang (2003), On the efficiency of ELF/VLF generation using HF heating of the Auroral electrojet, Plasma Phys. Rep., 29, 561.
  • Perkins, F. W., and M. V. Goldman (1981), Self focusing of radio waves in an underdense ionosphere, J. Geophys. Res., 86, 600.
  • Prakash, G. (2004), Nonlinear interaction of electromagnetic waves with plasma, Ph.D. thesis, Lucknow Univ., Lucknow, India.
  • Richardson, M. C., and A. J. Alcock (1971), Interferometric observation of plasma filaments in laser-produced spark, Appl. Phys. Lett., 18, 357.
  • Robinson, T. R. (1989), The heating of the high latitude ionosphere by high power radio waves, Phys. Rep., 179, 79.
  • Selvam, A. M. (1987), The dynamics of non-linear ionospheric RF wave processes, AIP Conf. Proc., 159, 460.
  • Sharma, A., G. Prakash, M. P. Verma, and M. S. Sodha (2003), Three regimes of intense laser beam propagation in plasma, Phys. Plasmas, 10, 4079.
  • Sharma, A., M. P. Verma, and M. S. Sodha (2004), Self focusing of electromagnetic beams in collisional plasmas with nonlinear absorption, Phys. Plasmas, 11, 4275.
  • Shearer, J. W., and J. L. Eddleman (1973), Laser light forces and self-focusing in fully ionized plasmas, Phys. Fluids, 16, 1753.
  • Sodha, M. S., and P. K. Kaw (1969), Theory of the generation of harmonics and combination frequencies in a plasma, Adv. Electron. Electron Phys., 27, 187.
  • Sodha, M. S., A. K. Ghatak, and V. K. Tripathi (1974), Self Focusing of Laser Beams in Dielectrics, Semiconductors and Plasmas, McGraw Hill, New York.
  • Sodha, M. S., A. K. Ghatak, and V. K. Tripathi (1976), Self Focusing of Laser Beams in Plasmas and Semiconductors, Progr. Opt., vol. 13, edited by E. Wolf, p. 169, Elsevier, New York.
  • Sodha, M. S., M. P. Verma, and A. Sharma (2005), Phase matching for third harmonic generation in collisional magnetoplasma, Phys. Plasmas, 12, 112302.
  • Umstadter, D. (2001), Review of physics and applications of relativistic plasmas driven by ultra-intense lasers, Phys. Plasmas, 8, 1774.