Modeling of beam-ionized sources for plasma accelerators

机译：等离子体加速器束离子源的建模

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

When considering intense particle or laser beams propagating in dense plasma or gas, ionization plays an important role. Impact ionization and tunnel ionization may create new plasma electrons, altering the physics of wakefield accelerators, creating and modifying instabilities, etc. Here we describe the addition of an ionization package into the 3-D object-oriented fully parallel PIC code OSIRIS [R.G Hemker, F.S. Tsung, V.K. Decyk, W.B. Mori, S. Lee, and T. Katsouleas, Development of a parallel code for modeling plasma based accelerators, IEEE Particle Accelerator Conference 5, 3672-3674 (1999).]. Using intense beams to tunnel-ionize neutral gas may become a new source of plasma. For the beams whose electrical fields are right above threshold, the optimal gas density for maximize electrical field is about 7 n/sub 0/(n/sub 0/ is the optimal density according to linear theory /spl omega//sub p//spl sigma//sub z//c=2/sup 1/2/ [E164 proposal, unpublished.]). We apply the simulation tool to the parameters of the current E164 [R. Keinigs and M.E. Jones, Phys. Fluids 30, 252 (1987)] Plasma Wakefield Accelerator experiment at the Stanford Linear Accelerator Center (SLAC). We find that tunnel ionization affects the wakefield and energy gain of E-164 experiment.

机译：当考虑在密集的等离子体或气体中传播的强粒子或激光束时，电离起着重要作用。碰撞电离和隧道电离可能会产生新的等离子体电子，从而改变尾场加速器的物理特性，并创建和修改不稳定性等。在这里，我们描述了在3D面向对象的完全并行PIC代码OSIRIS [RG Hemker中添加了电离包，FS宗伟德比克（W.B.） Mori，S。Lee和T. Katsouleas，“开发基于等离子体的加速器建模的并行代码，IEEE粒子加速器会议5，3672-3674（1999）”。使用强束使中性气体电离可以成为等离子体的新来源。对于其电场刚好高于阈值的光束，用于最大化电场的最佳气体密度约为7 n / sub 0 /（n / sub 0 /是根据线性理论/ spl omega // sub p //的最佳密度。 spl sigma // sub z // c = 2 / sup 1/2 / [E164提案，未发布。]）。我们将仿真工具应用于当前E164 [R. Keinigs和M.E. Jones，物理学流体30，252（1987）]在斯坦福线性加速器中心（SLAC）进行的等离子体Wakefield加速器实验。我们发现隧道电离会影响E-164实验的尾流场和能量增益。

著录项

来源
《》|2003年|p.1933-1935|共3页
会议地点
作者
Deng; S.; Barnes; C.D.; Clayton; C.E.; OConnell; C.; Decker; F.J.; Emma; P.; Erdem; O.; Huang; C.; Hogan; M.J.; Iverson; R.; Johnson; D.K.; Joshi; C.; Katsouleas; T.; Krejcik; P.; Lu; W.; Marsh; K.A.; Mori; W.B.; Muggli; P.; Siemann; R.H.; Walz; D.;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类无线电电子学、电信技术;
关键词
plasma simulation; plasma sources; plasma accelerators; plasma density; laser beam applications; electron accelerators; particle beams; impact ionisation; wakefield accelerators; beam-ionized sources modeling; plasma accelerators; intense particle beam; laser beam; dense plasma; dense gas; impact ionization; tunnel ionization; plasma electrons; wakefield accelerators physics; ionization package; 3-D object-oriented fully parallel PIC code OSIRIS; tunnel-ionize neutral gas; plasma source; electrical fields; optimal gas density; optimal density; linear theory; simulation tool; current E164 parameters; Plasma Wakefield Accelerator experiment; Stanford Linear Accelerator Center; SLAC; wakefield; energy gain; E-164 experiment;

机译：等离子模拟;等离子源;等离子加速器;等离子密度;激光束应用;电子加速器;粒子束;碰撞电离;尾场加速器;束电离源建模;等离子加速器;强粒子束;激光束;浓等离子体;浓气体;碰撞电离;隧道电离;等离子体电子;尾场加速器物理;电离封装; 3-D面向对象的完全并行PIC代码OSIRIS;隧道电离中性气体;等离子体源;电场;最佳气体密度;最佳密度;线性理论;仿真工具;当前E164参数;等离子Wakefield加速器实验;斯坦福线性加速器中心; SLAC; Wakefield;能量增益; E-164实验;

相似文献

外文文献
中文文献
专利

1. APS -Annual Meeting of the APS Four Corners Section- Event - Laser ionized plasma sources for plasma wakefield accelerators [J] . Robert Ariniello, Michael Litos Bulletin of the American Physical Society . 2017,第17期

机译：APS-APS四角区年会-活动-用于等离子体尾波加速器的激光电离等离子体源
2. Quasi-monoenergetic femtosecond photon sources from Thomson Scattering using laser plasma accelerators and plasma channels [J] . Rykovanov S. G., Geddes C. G. R., Vay J-L, Journal of Physics, B. Atomic, Molecular and Optical Physics: An Institute of Physics Journal . 2014,第23期

机译：使用激光等离子体加速器和等离子体通道的Thomson散射产生的准单能飞秒光子源
3. A novel Rb vapor plasma source for plasma wakefield accelerators [J] . E. OEz, P. Muggli Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment . 2014,第mara11期

机译：用于等离子体尾波场加速器的新型Rb蒸气等离子体源
4. Modeling of beam-ionized sources for plasma accelerators [C] . Deng S., Barnes C.D., Clayton C.E., Particle Acelerator Conference . 2003

机译：血浆促进剂光束电离源的建模
5. Models and physics of plasma wakefield accelerators in beam-ionized gases. [D] . Deng, Suzhi. 2005

机译：束流电离气体中等离子体尾流加速器的模型和物理学。
6. Laser-driven high-quality positron sources as possible injectors for plasma-based accelerators [O] . Aaron Alejo, Roman Walczak, Gianluca Sarri -1

机译：激光驱动的高品质正电子源可作为基于等离子体的加速器的进样器
7. Quasi-monoenergetic femtosecond photon sources from Thomson Scattering using laser plasma accelerators and plasma channels [O] . Rykovanov, S. G., Geddes, C. G. R., Vay, J. -L., 2014

机译：Thomson scattering的准单能飞秒光子源使用激光等离子加速器和等离子通道

Modeling of beam-ionized sources for plasma accelerators

摘要

著录项

相似文献

相关主题

期刊订阅