Raman scattering is a three wave interaction in which a high frequency electromagnetic wave gives up energy to an electromagnetic wave at lower frequency and a Langmuir wave. This process has been suggested as a way of amplifying a short laser pulse by having it interact with a counter-propagating long pulse. I shall describe the essential theory behind this, discuss some of the effects which may act to limit its effectiveness and give a brief account of current progress.</p
Backward Raman amplification (BRA) in plasma can be used for generating ultra-powerful laser pulses....
Influence of kinetic effects on 3-wave interaction was examined within the frame of stimul...
Stimulated Raman forward scattering in a high‐temperature, magnetized plasma is investigated with re...
The advent of laser systems based on the chirped pulse amplification (CPA) technique has allowed the...
Stimulated Raman backscattering in plasma has been suggested as a way to amplify short laser pulses ...
The recently proposed backward Raman laser amplification scheme utilizes the stimulated Raman backsc...
Energy exchange between pump and daughter waves during the stimulated Raman scattering process in a ...
Laser pulses have the shortest duration, smallest spatial extent, highest power, longest range and h...
In this paper, we continue the study of the Raman amplification in plasmas that we have initiated in...
The propagation of intense laser beam through a plasma ablated from a solid target by a focused ns l...
Raman backscattering (RBS) in plasma is an attractive source of intense, ultrashort laser pulses, wh...
A three-wave model has been developed to investigate the influence of wavebreaking and thermal effec...
Raman or Brillouin amplification of a laser beam in plasma has long been seen as a way to reach mult...
Stimulated Raman forward scattering (SRFS) of an intense short pulse laser in a plasma channel forme...
Abstract—High-intensity laser–plasma interaction experiments were performed using high-power laser p...
Backward Raman amplification (BRA) in plasma can be used for generating ultra-powerful laser pulses....
Influence of kinetic effects on 3-wave interaction was examined within the frame of stimul...
Stimulated Raman forward scattering in a high‐temperature, magnetized plasma is investigated with re...
The advent of laser systems based on the chirped pulse amplification (CPA) technique has allowed the...
Stimulated Raman backscattering in plasma has been suggested as a way to amplify short laser pulses ...
The recently proposed backward Raman laser amplification scheme utilizes the stimulated Raman backsc...
Energy exchange between pump and daughter waves during the stimulated Raman scattering process in a ...
Laser pulses have the shortest duration, smallest spatial extent, highest power, longest range and h...
In this paper, we continue the study of the Raman amplification in plasmas that we have initiated in...
The propagation of intense laser beam through a plasma ablated from a solid target by a focused ns l...
Raman backscattering (RBS) in plasma is an attractive source of intense, ultrashort laser pulses, wh...
A three-wave model has been developed to investigate the influence of wavebreaking and thermal effec...
Raman or Brillouin amplification of a laser beam in plasma has long been seen as a way to reach mult...
Stimulated Raman forward scattering (SRFS) of an intense short pulse laser in a plasma channel forme...
Abstract—High-intensity laser–plasma interaction experiments were performed using high-power laser p...
Backward Raman amplification (BRA) in plasma can be used for generating ultra-powerful laser pulses....
Influence of kinetic effects on 3-wave interaction was examined within the frame of stimul...
Stimulated Raman forward scattering in a high‐temperature, magnetized plasma is investigated with re...
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