Simulation of density solitons and self-generated magnetic field in laser plasma

ZHOU Su-yun; LIU San-qiu; TAO Xiang-yang

For exploring the mechanism of formation of density solitons and self-generated magnetic field in laser plasma,their evolution is numerically simulated by using of nonlinear equation for density disturbance in axial-symmetric cylindrical coordinate.The simulation results show that laser with intensity of 4×1014W/cm2 irradiation on target produces solitons with density disturbance rate of 82%.At the same time,self-generated magnetic field about 30T along the propagation axes is induced.These results are consistent with observed results.

1. Institute of Material, Nanchang Unversity, Nanchang 330047, China;

2. Institute of Physics and Electrical Communication, Jiangxi Normal University, Nanchang 330027, China

Received Date: 2006-01-09

Accepted Date: 2006-02-28

Available Online: 2007-02-25

Abstract: For exploring the mechanism of formation of density solitons and self-generated magnetic field in laser plasma,their evolution is numerically simulated by using of nonlinear equation for density disturbance in axial-symmetric cylindrical coordinate.The simulation results show that laser with intensity of 4×1014W/cm2 irradiation on target produces solitons with density disturbance rate of 82%.At the same time,self-generated magnetic field about 30T along the propagation axes is induced.These results are consistent with observed results.

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Reference (11)

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Simulation of density solitons and self-generated magnetic field in laser plasma

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References

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