Electron excitation by a multi passage laser beam in a plasma

B. Yedierler; S. Bilikmen

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Electron excitation by a multi passage laser beam in a plasma

机译：等离子体中多通道激光束对电子的激发

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摘要

The limits put by optical guiding, and channel guiding mechanisms on the Laser Wakefield Acceleration (LWFA) technique are imposed on the Resonant Laser Wakefield Acceleration (RLWFA) scheme. Energy gained by the electrons in both schemes are calculated and compared. It has presented that in the RLWFA case, the electrons gain more and more energy after each traversal of the laser pulse and the electrons in a plasma gain about 3 GeV after 10 passages of the laser pulse. They gain 13 GeV when the laser light makes 50 passages and 26 GeV after the laser beam traverses the plasma 100 times. Moreover, the channel guiding mechanism is integrated to the RLWFA scheme and together with diffraction guiding a model for electron acceleration is proposed.

机译：光学引导和通道引导机制对激光韦克菲尔德加速（LWFA）技术施加的限制强加于共振激光韦克菲尔德加速（RLWFA）方案。计算和比较两种方案中电子获得的能量。已经提出，在RLWFA的情况下，电子在每次横穿激光脉冲之后获得越来越多的能量，并且等离子体中的电子在经过10次激光脉冲之后获得大约3 GeV的能量。当激光通过50次时，它们获得13 GeV的光;当激光束穿过等离子体100次后，它们获得26 GeV的光。此外，将通道导引机制集成到RLWFA方案中，并与衍射导引一起提出了电子加速模型。

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《The European physical journal, D. Atomic, molecular, and optical physics》 |2001年第3期|共5页
作者
B. Yedierler; S. Bilikmen;
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正文语种 eng
中图分类分子物理学、原子物理学;
关键词
particle beam interactions in plasma; laser-plasma interactions (e.g.; anomalous absorption; backscattering; magnetic field generation; fast particle generation);

机译：等离子体中的粒子束相互作用;激光-等离子体相互作用（例如;异常吸收;反向散射;磁场产生;快速产生粒子）;

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专利

1. Electron excitation by a multi passage laser beam in a plasma [J] . B. Yedierler, S. Bilikmen The European physical journal, D. Atomic, molecular, and optical physics . 2001,第3期

机译：等离子体中多通道激光束对电子的激发
2. Effect of cross-focusing of two q-Gaussian laser beams on excitation of electron plasma wave in collisional plasma [J] . Gupta Naveen, Singh Arvinder Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2016,第20期

机译：两个q高斯激光束的交叉聚焦对碰撞等离子体中电子等离子体波激发的影响
3. Beat wave excitation of electron plasma wave by cross-focusing of intense cosh-Gaussian laser beams in collisionless plasma with upward density ramp [J] . Singh Arvinder, Gupta Naveen Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2016,第11期

机译：交会高斯高斯激光束在无碰撞等离子体中以较高的密度斜波交叉聚焦的电子等离子体波的拍波激发
4. Cathodeless, high brightness electron beam production by multiple laser beams in plasmas [C] . Hemker, R.G., Tzeng, . 1998

机译：等离子体中的多个激光束可产生无阴极的高亮度电子束
5. Physics of laser-driven relativistic plasmas energetic X-rays, proton beams and relativistic electron transport in Petawatt laser experiments. [D] . Snavely, Richard Adolph. 2003

机译：皮塔瓦激光实验中，激光驱动的相对论等离子体的物理是高能X射线，质子束和相对论电子传输。
6. Demonstration of electron beam laser excitation in the UV range using a GaN/AlGaN multiquantum well active layer [O] . Takafumi Hayashi, Yuta Kawase, Noriaki Nagata, -1

机译：使用GaN / AlGaN多量子阱有源层演示在紫外线范围内的电子束激光激发
7. Generation of Superponderomotive Electrons in Multipicosecond Interactions of Kilojoule Laser Beams with Solid-Density Plasmas [O] . Sorokovikova A, Arefiev A, McGuffey C, 2016

机译：固态密度等离子体在焦耳激光束的多皮秒相互作用中产生超动力电子

Electron excitation by a multi passage laser beam in a plasma

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