Plasma block acceleration by ps-TW laser irradiation

George H. Miley; Frederick Osman; Heinrich Hora; Jan Badziak; Karel Rohlena; Karel Jungwirth; Jerzy Wolowski; Yu Cang; Xiantu He; Jie Zhang; Peter Hammerling

Plasma block acceleration by ps-TW laser irradiation

George H. Miley, Frederick Osman, Heinrich Hora, Jan Badziak, Karel Rohlena, Karel Jungwirth, Jerzy Wolowski, Yu Cang, Xiantu He, Jie Zhang, Peter Hammerling

Research output: Chapter in Book / Conference Paper › Conference Paper

Abstract

Plasma emission or ablation from laser-irradiated targets shows very complicated properties. One novelty was observed at irradiation of neodymium glass laser pulses of ps duration and TW power if there was a very strong suppression of prepulses by a contrast ratio of about 108 until 100 ps before the main pulse arrived. The emitted ion maximum energy was more than 50 times below the values observed in all the comparable numerous experiments. The other anomaly is that the number of the fast ions did not change when the laser intensity varied by a factor 30. This permitted a separation of the usual effects of self-focusing and permitted an analysis fully based on simplified plane geometry as a skin layer interaction mechanism. The consequence is that plasma blocks are accelerated by the nonlinear (ponderomotive) force with ion current densities above 1010 A/cm2. This provides basically new aspects for laser fusion using uncompressed solid DT fuel and a new kind of x-ray laser process may be possible.

Original language	English
Title of host publication	High-power Laser Ablation V: 25-30 April, 2004, Taos, New Mexico, USA. Proceedings of SPIE. Vol. 5448
Publisher	Society of Photo-Optical Instrumentation Engineers
Number of pages	14
Publication status	Published - 2004
Event	High Power Laser Ablation - Duration: 1 Jan 2004 → …

Conference

Conference	High Power Laser Ablation
Period	1/01/04 → …

Keywords

laser fusion
laser plasmas
laser ablation

Cite this

@inproceedings{ac9cfe1653444684943746234bff815a,

title = "Plasma block acceleration by ps-TW laser irradiation",

abstract = "Plasma emission or ablation from laser-irradiated targets shows very complicated properties. One novelty was observed at irradiation of neodymium glass laser pulses of ps duration and TW power if there was a very strong suppression of prepulses by a contrast ratio of about 108 until 100 ps before the main pulse arrived. The emitted ion maximum energy was more than 50 times below the values observed in all the comparable numerous experiments. The other anomaly is that the number of the fast ions did not change when the laser intensity varied by a factor 30. This permitted a separation of the usual effects of self-focusing and permitted an analysis fully based on simplified plane geometry as a skin layer interaction mechanism. The consequence is that plasma blocks are accelerated by the nonlinear (ponderomotive) force with ion current densities above 1010 A/cm2. This provides basically new aspects for laser fusion using uncompressed solid DT fuel and a new kind of x-ray laser process may be possible.",

keywords = "laser fusion, laser plasmas, laser ablation",

author = "Miley, {George H.} and Frederick Osman and Heinrich Hora and Jan Badziak and Karel Rohlena and Karel Jungwirth and Jerzy Wolowski and Yu Cang and Xiantu He and Jie Zhang and Peter Hammerling",

year = "2004",

language = "English",

booktitle = "High-power Laser Ablation V: 25-30 April, 2004, Taos, New Mexico, USA. Proceedings of SPIE. Vol. 5448",

publisher = "Society of Photo-Optical Instrumentation Engineers",

note = "High Power Laser Ablation ; Conference date: 01-01-2004",

}

Miley, GH, Osman, F, Hora, H, Badziak, J, Rohlena, K, Jungwirth, K, Wolowski, J, Cang, Y, He, X, Zhang, J & Hammerling, P 2004, Plasma block acceleration by ps-TW laser irradiation. in High-power Laser Ablation V: 25-30 April, 2004, Taos, New Mexico, USA. Proceedings of SPIE. Vol. 5448. Society of Photo-Optical Instrumentation Engineers, High Power Laser Ablation, 1/01/04.

TY - GEN

T1 - Plasma block acceleration by ps-TW laser irradiation

AU - Miley, George H.

AU - Osman, Frederick

AU - Hora, Heinrich

AU - Badziak, Jan

AU - Rohlena, Karel

AU - Jungwirth, Karel

AU - Wolowski, Jerzy

AU - Cang, Yu

AU - He, Xiantu

AU - Zhang, Jie

AU - Hammerling, Peter

PY - 2004

Y1 - 2004

N2 - Plasma emission or ablation from laser-irradiated targets shows very complicated properties. One novelty was observed at irradiation of neodymium glass laser pulses of ps duration and TW power if there was a very strong suppression of prepulses by a contrast ratio of about 108 until 100 ps before the main pulse arrived. The emitted ion maximum energy was more than 50 times below the values observed in all the comparable numerous experiments. The other anomaly is that the number of the fast ions did not change when the laser intensity varied by a factor 30. This permitted a separation of the usual effects of self-focusing and permitted an analysis fully based on simplified plane geometry as a skin layer interaction mechanism. The consequence is that plasma blocks are accelerated by the nonlinear (ponderomotive) force with ion current densities above 1010 A/cm2. This provides basically new aspects for laser fusion using uncompressed solid DT fuel and a new kind of x-ray laser process may be possible.

AB - Plasma emission or ablation from laser-irradiated targets shows very complicated properties. One novelty was observed at irradiation of neodymium glass laser pulses of ps duration and TW power if there was a very strong suppression of prepulses by a contrast ratio of about 108 until 100 ps before the main pulse arrived. The emitted ion maximum energy was more than 50 times below the values observed in all the comparable numerous experiments. The other anomaly is that the number of the fast ions did not change when the laser intensity varied by a factor 30. This permitted a separation of the usual effects of self-focusing and permitted an analysis fully based on simplified plane geometry as a skin layer interaction mechanism. The consequence is that plasma blocks are accelerated by the nonlinear (ponderomotive) force with ion current densities above 1010 A/cm2. This provides basically new aspects for laser fusion using uncompressed solid DT fuel and a new kind of x-ray laser process may be possible.

KW - laser fusion

KW - laser plasmas

KW - laser ablation

UR - http://handle.uws.edu.au:8081/1959.7/36359

M3 - Conference Paper

BT - High-power Laser Ablation V: 25-30 April, 2004, Taos, New Mexico, USA. Proceedings of SPIE. Vol. 5448

PB - Society of Photo-Optical Instrumentation Engineers

T2 - High Power Laser Ablation

Y2 - 1 January 2004

ER -

Plasma block acceleration by ps-TW laser irradiation

Abstract

Conference

Keywords

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