Experiments were performed using the OMEGA EP laser, operating at 740 J of energy in 8 ps (90 TW), which provides extreme conditions relevant to fast ignition studies. A carbon and hydrogen plasma plume was used as the underdense target and the interaction of the laser pulse propagating and channeling through the plasma was imaged using proton radiography. The early time expansion, channel evolution, filamentation, and self-correction of the channel was measured on a single shot via this method. A channel wall modulation was observed and attributed to surface waves. After around 50 ps, the channel had evolved to show bubblelike structures, which may be due to postsoliton remnants
The experimental study of the behavior of deuterium plasma with densities between 2× 1018 and 2× 102...
Channel formation during the propagation of a high-energy (120 J) and long duration (30 ps) laser pu...
Experimental investigations of laser guiding in plasma channels at LBNL are reported. Intense (> ...
Experiments were performed using the OMEGA EP laser, operating at 740 J of energy in 8 ps (90 TW), w...
Experiments were performed using the Omega EP laser, operating at 740 J of energy in 8 ps (90 TW), w...
Experiments were performed on the Omega EP laser facility to study laser pulse propagation, channeli...
© Published under licence by IOP Publishing Ltd. We perform relativistic-intensity laser experiments...
Thesis (Ph. D.)--University of Rochester. Department of Mechanical Engineering, 2015.The creation of...
Channeling experiments were performed at the OMEGA EP facility using relativistic intensity ( > 1...
This thesis studies the propagation of high intensity lasers through underdense plasmas and the subs...
International audienceExperiments have been performed using high power laser pulses (up to 50 TW) fo...
Ultra intense laser light propagation in a homogeneous overdense plasma was investigated using a pla...
International audienceThe interaction of an intense short pulse laser (>5×10 18 Wcm-2) with underden...
This thesis studies the propagation of high intensity lasers through underdense plasmas and the sub...
The authors present results of experimental investigations of laser guiding in plasma channels. A ne...
The experimental study of the behavior of deuterium plasma with densities between 2× 1018 and 2× 102...
Channel formation during the propagation of a high-energy (120 J) and long duration (30 ps) laser pu...
Experimental investigations of laser guiding in plasma channels at LBNL are reported. Intense (> ...
Experiments were performed using the OMEGA EP laser, operating at 740 J of energy in 8 ps (90 TW), w...
Experiments were performed using the Omega EP laser, operating at 740 J of energy in 8 ps (90 TW), w...
Experiments were performed on the Omega EP laser facility to study laser pulse propagation, channeli...
© Published under licence by IOP Publishing Ltd. We perform relativistic-intensity laser experiments...
Thesis (Ph. D.)--University of Rochester. Department of Mechanical Engineering, 2015.The creation of...
Channeling experiments were performed at the OMEGA EP facility using relativistic intensity ( > 1...
This thesis studies the propagation of high intensity lasers through underdense plasmas and the subs...
International audienceExperiments have been performed using high power laser pulses (up to 50 TW) fo...
Ultra intense laser light propagation in a homogeneous overdense plasma was investigated using a pla...
International audienceThe interaction of an intense short pulse laser (>5×10 18 Wcm-2) with underden...
This thesis studies the propagation of high intensity lasers through underdense plasmas and the sub...
The authors present results of experimental investigations of laser guiding in plasma channels. A ne...
The experimental study of the behavior of deuterium plasma with densities between 2× 1018 and 2× 102...
Channel formation during the propagation of a high-energy (120 J) and long duration (30 ps) laser pu...
Experimental investigations of laser guiding in plasma channels at LBNL are reported. Intense (> ...