Willingale L, Mangles S P D, Nilson P M, Clarke R J, Dangor A E, Kaluza M C, Karsch S, Lancaster K L, Mori W B, Najmudin Z, Schreiber J, Thomas A G R, Wei M S, Krushelnick K
Blackett Laboratory, Imperial College London, London SW7 2BZ, United Kingdom.
Phys Rev Lett. 2006 Jun 23;96(24):245002. doi: 10.1103/PhysRevLett.96.245002. Epub 2006 Jun 22.
A beam of multi-MeV helium ions has been observed from the interaction of a short-pulse high-intensity laser pulse with underdense helium plasma. The ion beam was found to have a maximum energy for He2+ of (40(+3)(-8)) MeV and was directional along the laser propagation path, with the highest energy ions being collimated to a cone of less than 10 degrees. 2D particle-in-cell simulations show that the ions are accelerated by a sheath electric field that is produced at the back of the gas target. This electric field is generated by transfer of laser energy to a hot electron beam, which exits the target generating large space-charge fields normal to its boundary.
从短脉冲高强度激光脉冲与低密度氦等离子体的相互作用中观测到了一束多兆电子伏特的氦离子。发现该离子束中He2+的最大能量为(40(+3)(-8))兆电子伏特,并且沿激光传播路径呈定向分布,能量最高的离子被准直到小于10度的圆锥范围内。二维粒子模拟显示,离子是由在气体靶背面产生的鞘层电场加速的。该电场是由激光能量转移到热电子束而产生的,热电子束离开靶时会在其边界法线方向产生大的空间电荷场。
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