Add to ORKGLaser light trapping in cavities in near-critical density plasmas is studied by two-dimensional particle-in-cell simulation. The laser ponderomotive force can create in the plasma a vacuum cavity bounded by a thin overcritical-density wall. The laser light is self-consistently trapped as a half-cycle electromagnetic wave in the form of an oscillon-caviton structure until it is slowly depleted through interaction with the cavity wall. When the near-critical density plasma contains a preformed cavity, laser light can become a standing wave in the latter. The trapped light is characterized as multi-peak structure. The overdense plasma wall around the self-generated and preformed cavities induced by the laser ponderomotive force is found to be ...
To investigate the growth of instabilities in an underdense plasma, a number of simulations was carr...
We present theoretical and numerical studies of the interaction between relativistically intense las...
Triggering vacuum breakdown at laser facility is expected to provide rapid electron-positron p air p...
The formation and evolution of laser-induced post-solitons in near-critical density plasma are studi...
Self-trapping, stopping, and absorption of an ultrashort ultraintense linearly polarized laser pulse...
It is shown by particle-in-cell simulation that intense circularly polarized (CP) laser light can be...
A radiation-reaction trapping (RRT) of electrons is revealed in the near-QED regime of laser-plasma ...
With particle-in-cell simulations we show that electromagnetic relativistically strong solitons, for...
With particle-in-cell simulations we show that electromagnetic relativistically strong solitons, for...
Localized electromagnetic structures with trapped laser light inside are often found in simulations ...
Localized electromagnetic structures with trapped laser light inside are often found in simulations ...
In underdense plasmas, the transverse ponderomotive force of an intense laser beam with Gaussian tra...
The trapping of thermal electrons in a nonlinear plasma wave of arbitrary phase velocity is investig...
The trapping of thermal electrons in a nonlinear plasma wave of arbitrary phase velocity is investi...
To investigate the growth of instabilities in an underdense plasma, a number of simulations was carr...
To investigate the growth of instabilities in an underdense plasma, a number of simulations was carr...
We present theoretical and numerical studies of the interaction between relativistically intense las...
Triggering vacuum breakdown at laser facility is expected to provide rapid electron-positron p air p...
The formation and evolution of laser-induced post-solitons in near-critical density plasma are studi...
Self-trapping, stopping, and absorption of an ultrashort ultraintense linearly polarized laser pulse...
It is shown by particle-in-cell simulation that intense circularly polarized (CP) laser light can be...
A radiation-reaction trapping (RRT) of electrons is revealed in the near-QED regime of laser-plasma ...
With particle-in-cell simulations we show that electromagnetic relativistically strong solitons, for...
With particle-in-cell simulations we show that electromagnetic relativistically strong solitons, for...
Localized electromagnetic structures with trapped laser light inside are often found in simulations ...
Localized electromagnetic structures with trapped laser light inside are often found in simulations ...
In underdense plasmas, the transverse ponderomotive force of an intense laser beam with Gaussian tra...
The trapping of thermal electrons in a nonlinear plasma wave of arbitrary phase velocity is investig...
The trapping of thermal electrons in a nonlinear plasma wave of arbitrary phase velocity is investi...
To investigate the growth of instabilities in an underdense plasma, a number of simulations was carr...
To investigate the growth of instabilities in an underdense plasma, a number of simulations was carr...
We present theoretical and numerical studies of the interaction between relativistically intense las...
Triggering vacuum breakdown at laser facility is expected to provide rapid electron-positron p air p...