2010
DOI: 10.1017/s0263034610000200
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Relativistic self-distortion of a laser pulse and ponderomotive acceleration of electrons in an axially inhomogeneous plasma

Abstract: Relativistic self distortion of a Gaussian laser pulse in inhomogeneous plasma in one dimension is investigated. The relativistic mass effect causes different portions of the pulse to travel with different group velocities leading to the steepening of the pulse front and broadening of the rear. This asymmetry created in the pulse shape gives rise to stronger ponderomotive force on electrons at the front and weaker at the rear. The fast moving electrons under this force are shown to have very significant net en… Show more

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Cited by 14 publications
(7 citation statements)
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“…This rate is less for larger values of amplitude because of the fact that there is an increase in refractive index with increase in electron mass. From the figure, it is clear that in the classical plasma (ℏ = 0), the refractive index is lowest and is in agreement with earlier work [62]. The refractive index for spin-polarized quantum plasma is lower by about 8% as compared to that of quantum plasma without spin polarization for the chosen set of parameters.…”
Section: Pulse Distortionsupporting
confidence: 89%
“…This rate is less for larger values of amplitude because of the fact that there is an increase in refractive index with increase in electron mass. From the figure, it is clear that in the classical plasma (ℏ = 0), the refractive index is lowest and is in agreement with earlier work [62]. The refractive index for spin-polarized quantum plasma is lower by about 8% as compared to that of quantum plasma without spin polarization for the chosen set of parameters.…”
Section: Pulse Distortionsupporting
confidence: 89%
“…The importance of density ripple in the plasma has also been discussed by some authors in context of other phenomena taking place in the laser-plasma interaction (Singh et al, 2010;Xia & Xu, 2013;Xia, 2014). Significant amount of research is going into the fabrication of such kind of structure due to their other applications such as in the development plasma photonic devices.…”
Section: Introductionmentioning
confidence: 99%
“…Hence, the investigation of the Stamper force, pon- deromotive acceleration, and self-focusing effects on the radiated power in quantum plasmas will be treated elsewhere. Very recently, excellent investigations [24,25] on the ponderomotive acceleration of electrons by a short laser pulse undergoing relativistic self-focusing and the relativistic self-distortion of a Gaussian laser pulse have been investigated in plasmas. Then, the investigation of the plasma screening effect on the ponderomotive acceleration in quantum plasmas will also be treated elsewhere.…”
Section: Streaming and Resonant Effectsmentioning
confidence: 99%