Response to “Comment on ‘Kinetic effects on the parametric decays of circularly polarized electromagnetic waves in an electron–positron plasma’ ” [Phys. Plasmas 9, 4413 (2002)]

Muñoz, Vıctor; Gomberoff, Luis
October 2002
Physics of Plasmas;Oct2002, Vol. 9 Issue 10, p4415
Academic Journal
Some of the issues raised by Stenflo and Shukla in their Comment are addressed in this Response. © 2002 American Institute of Physics.


Related Articles

  • Nonlinear perpendicular propagation of ordinary mode electromagnetic wave packets in pair plasmas and electron-positron-ion plasmas. Kourakis, I.; Verheest, F.; Cramer, N. F. // Physics of Plasmas;Feb2007, Vol. 14 Issue 2, p022506 

    The nonlinear amplitude modulation of electromagnetic waves propagating in pair plasmas, e.g., electron-positron or fullerene pair-ion plasmas, as well as three-component pair plasmas, e.g., electron-positron-ion plasmas or doped (dusty) fullerene pair-ion plasmas, assuming wave propagation in a...

  • Nonlinear dispersion and transverse profile of intense electromagnetic waves, propagating through electron-positron-ion hot magnetoplasma. Javan, N. Sepehri; Homami, S. H. H. // Physics of Plasmas;2015, Vol. 22 Issue 2, p1 

    Self-guided nonlinear propagation of intense circularly-polarized electromagnetic waves in a hot electron-positron-ion magnetoplasma is studied. Using a relativistic fluid model, a nonlinear equation is derived, which describes the interaction of the electromagnetic wave with the plasma in the...

  • Electromagnetic solitons in fully relativistic electron-positron plasmas with finite temperature. Lee, Nam C. // Physics of Plasmas;Jun2011, Vol. 18 Issue 6, p062310 

    The existence of localized structure of electromagnetic waves in relativistic electron-positron plasmas is investigated based on the pseudo-potential theory, without making any assumptions on the magnitudes of the flow velocity and temperature of the medium. The conditions for the localization...

  • Evolution of the Weibel instability in relativistically hot electron--positron plasmas. Yang, T.-Y. Brian; Arons, Jonathan; Langdon, A. Bruce // Physics of Plasmas;Sep94, Vol. 1 Issue 9, p3059 

    Discusses the evolution of the Weibel instability in relativistically hot electron-positron plasmas. Theoretical model and summary of the linear analysis; Evolution of a single unstable mode; Energy-like constraints of the Weibel instability in unmagnetized relativistic pair plasmas.

  • Relativistic particle acceleration in an electron--positron plasma with a relativistic electron... Zhao, J.; Sakai, J.I.; Nishikawa, K.-I.; Neubert, T. // Physics of Plasmas;Dec94, Vol. 1 Issue 12, p4114 

    Presents results from three-dimensional electromagnetic particle simulations of an electron-positron plasma with a relativistic electron beam. Poloidal magnetic field specified; Pinching oscillations of the beam due to pressure imbalance; Excitation of a transverse two-beam instability with...

  • Creation and uses of positron plasmas*. Greaves, R.G.; Tinkle, M.D.; Surko, C.M. // Physics of Plasmas;May94, Vol. 1 Issue 5, p1439 

    Reports on improvements in plasma manipulation and diagnostic methods that are useful to experiments including studies initiated of electron-positron plasmas. Impact of large numbers of confined positrons on positron annihilation research; Physics issues relating to electron-positron plasmas.

  • Parametric decay instabilities in the HELIX helicon plasma source. Kline, J. L.; Scime, E. E. // Physics of Plasmas;Jan2003, Vol. 10 Issue 1, p135 

    Parametric decay of the electromagnetic helicon pump wave into two electrostatic waves, thought to be a lower hybrid wave and an ion acoustic wave, is observed. The parametric excitation of the electrostatic waves is strongest near the axis of the helicon source. The parametrically excited wave...

  • Spin effect on parametric decay of oblique Langmuir wave in degenerate magneto-plasmas. Shahid, M.; Murtaza, G. // Physics of Plasmas;Aug2013, Vol. 20 Issue 8, p082124 

    The electron spin -1/2 effects on the parametric decay instability of oblique Langmuir wave into low-frequency electromagnetic shear Alfven wave and Left-Handed Circularly Polarized wave (LHCP) has been investigated in detail, in an electron-ion quantum plasma immersed in the uniform external...

  • Mikhel’son Effect in a Plasma. Dubinov, A. E.; Sadovoı, S. A.; Selemir, V. D. // Optics & Spectroscopy;Jan2000, Vol. 88 Issue 1, p90 

    An analysis is made of the parametric frequency shift of an electromagnetic wave traveling in a plasma (isotropic collisionless, isotropic collisional, and magnetized collisionless) with time-varying parameters (Mikhel'son effect). Different situations corresponding to the growth of plasma...


Read the Article


Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics