Add to ORKGThis thesis studies the propagation and stability of ultraintense laser light in plasma. A new method is devised, both general and inclusive yet requiring only modest computational effort. The exact anharmonic waveforms for laser light are established. An examination of their stability extends the theory of electron parametric instabilities to relativistic regimes in plasmas of any density including classically overdense plasma accessible by self-induced transparency. Such instabilities can rapidly degrade intense pulses, but can also be harnessed, for example in the self-resonant laser wakefield accelerator. Understanding both the new and established regimes is thus basic to the success of many applications arising in high-field science, i...
The dynamics of intense laser pulses in plasmas are investigated both theoretically and numerically....
We present theoretical and numerical studies of the interaction between relativistically intense las...
The direct laser-acceleration mechanism, nonlinear parametric resonance, of relativistic electrons i...
Electronic parametric instabilities of an ultrarelativistic circularly polarized laser pulse propaga...
With the advent of high-intensity short-pulse laser technology, focused laser intensity exceeding 10...
With the advent of high-intensity short-pulse laser technology, focused laser intensity exceeding 10...
Parametric instabilities in laser-plasma interactions are investigated in the ultrarelativistic regi...
Effects of relativistic electron temperature on stimulated Raman scattering and stimulated Brillouin...
The purpose of this LDRD was the study of parametric instabilities on a laser-produced plasma, addre...
A good understanding of parametric instability processes in the plasma produced by an ultra-intense ...
Analytical and numerical studies of plasma physics in ultra-intense plasma wave generation, electron...
We discuss various nonlinear optical processes that occur as an intense laser propagates through a r...
The dynamics of intense laser pulses in plasmas are investigated both theoretically and numerically....
Propagation of a laser light through regions of an underdense plasma is an active research topic in ...
Analytical and numerical studies of plasma physics in ultra-intense plasma wave generation, electron...
The dynamics of intense laser pulses in plasmas are investigated both theoretically and numerically....
We present theoretical and numerical studies of the interaction between relativistically intense las...
The direct laser-acceleration mechanism, nonlinear parametric resonance, of relativistic electrons i...
Electronic parametric instabilities of an ultrarelativistic circularly polarized laser pulse propaga...
With the advent of high-intensity short-pulse laser technology, focused laser intensity exceeding 10...
With the advent of high-intensity short-pulse laser technology, focused laser intensity exceeding 10...
Parametric instabilities in laser-plasma interactions are investigated in the ultrarelativistic regi...
Effects of relativistic electron temperature on stimulated Raman scattering and stimulated Brillouin...
The purpose of this LDRD was the study of parametric instabilities on a laser-produced plasma, addre...
A good understanding of parametric instability processes in the plasma produced by an ultra-intense ...
Analytical and numerical studies of plasma physics in ultra-intense plasma wave generation, electron...
We discuss various nonlinear optical processes that occur as an intense laser propagates through a r...
The dynamics of intense laser pulses in plasmas are investigated both theoretically and numerically....
Propagation of a laser light through regions of an underdense plasma is an active research topic in ...
Analytical and numerical studies of plasma physics in ultra-intense plasma wave generation, electron...
The dynamics of intense laser pulses in plasmas are investigated both theoretically and numerically....
We present theoretical and numerical studies of the interaction between relativistically intense las...
The direct laser-acceleration mechanism, nonlinear parametric resonance, of relativistic electrons i...