Laser wakefield acceleration with mid-IR laser pulses

Woodbury D.; Feder L.; Shumakova V.; Gollner C.; Schwartz R.; Miao B.; Salehi F.; Korolov A.; Pugzlys A.; Baltuska A.; Milchberg H. M.

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Laser wakefield acceleration with mid-IR laser pulses

机译：使用中红外激光脉冲激光韦克菲尔德加速

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摘要

We report on, to the best of our knowledge, the first results of laser plasma wakefield acceleration driven by ultrashort mid-infrared (IR) laser pulses (lambda = 3.9 mu m, 100 fs, 0.25 TW), which enable near-and above-critical density interactions with moderate-density gas jets. Relativistic electron acceleration up to similar to 12 MeV occurs when the jet width exceeds the threshold scale length for relativistic self-focusing. We present scaling trends in the accelerated beam profiles, charge, and spectra, which are supported by particle-in-cell simulations and time-resolved images of the interaction. For similarly scaled conditions, we observe significant increases in the accelerated charge, compared to previous experiments with near-infrared (lambda = 800 nm) pulses. (c) 2018 Optical Society of America

机译：我们报告，据我们所知，由超短半红外线（IR）激光脉冲（Lambda =3.9μm，100 fs，0.25w）驱动的激光等离子体韦克野外加速的第一个结果，它能够接近和上面 - 与中等密度气体喷射的密度相互作用。当喷射宽度超过阈值尺度长度以进行相对论自体聚焦时，达到相似的电子加速度至12MeV。我们在加速梁轮廓，电荷和光谱中呈现缩放趋势，其由粒子内模拟和相互作用的时间分辨图像支持。对于类似缩放的条件，与先前的近红外（Lambda = 800nm）脉冲的实验相比，我们观察加速充电的显着增加。（c）2018年光学学会

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来源
《Optics Letters 》 |2018年第5期| 共4页
作者
Woodbury D.; Feder L.; Shumakova V.; Gollner C.; Schwartz R.; Miao B.; Salehi F.; Korolov A.; Pugzlys A.; Baltuska A.; Milchberg H. M.;
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作者单位

Univ Maryland Inst Res Elect &

Appl Phys College Pk MD 20742 USA;

Univ Maryland Inst Res Elect &

Appl Phys College Pk MD 20742 USA;

Vienna Univ Technol Photon Inst Gusshausstr 27-387 A-1040 Vienna Austria;

Vienna Univ Technol Photon Inst Gusshausstr 27-387 A-1040 Vienna Austria;

Univ Maryland Inst Res Elect &

Appl Phys College Pk MD 20742 USA;

Univ Maryland Inst Res Elect &

Appl Phys College Pk MD 20742 USA;

Univ Maryland Inst Res Elect &

Appl Phys College Pk MD 20742 USA;

Univ Maryland Inst Res Elect &

Appl Phys College Pk MD 20742 USA;

Vienna Univ Technol Photon Inst Gusshausstr 27-387 A-1040 Vienna Austria;

Vienna Univ Technol Photon Inst Gusshausstr 27-387 A-1040 Vienna Austria;

Univ Maryland Inst Res Elect &

Appl Phys College Pk MD 20742 USA;

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正文语种 eng
中图分类计量学 ; 光学 ;
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1. Laser wakefield acceleration with mid-IR laser pulses [J] . Woodbury D., Feder L., Shumakova V., Optics Letters . 2018 ,第5期

机译：使用中红外激光脉冲激光韦克菲尔德加速
2. Study of quasimonoenergetic electron bunch generation in self-modulated laser wakefield acceleration using TW or sub-TW ultrashort laser pulses [J] . E. P. Maldonado, R. E. Samad, A. Bonatto, AIP Advances . 2021 ,第6期

机译：使用TW或SUB-TW超短激光脉冲在自调制激光韦克菲尔德加速中的QuAmonoenergetic电子束生成
3. All optical dual stage laser wakefield acceleration driven by two-color laser pulses [J] . Vishwa Bandhu Pathak, Hyung Taek Kim, J. Vieira, Scientific reports. . 2018 ,第1期

机译：由双色激光脉冲驱动的所有光学双级激光韦曲面加速
4. Injected electron acceleration by laser wakefield due to intense ultra-short laser pulses [C] . Kato Susumu, Koga James K., Kato Kaori, Electromagnetic Compatibility Symposium Record, 1968 IEEE . -1

机译：强烈的超短激光脉冲导致的激光尾场注入的电子加速
5. Modeling laser pulse evolution in ionizing gas and plasma with application to laser wakefield acceleration. [D] . Cooley, James Hamilton. 2004

机译：对电离气体和等离子体中的激光脉冲演化建模并应用于激光尾波加速。
6. All optical dual stage laser wakefield acceleration driven by two-color laser pulses [O] . Vishwa Bandhu Pathak, Hyung Taek Kim, J. Vieira, -1

机译：由双色激光脉冲驱动的全光学双级激光尾波加速
7. Laser wakefield acceleration with mid-IR laser pulses [O] . Woodbury, D., Feder, L., Shumakova, V., 2018

机译：激光尾场加速与中红外激光脉冲

Laser wakefield acceleration with mid-IR laser pulses

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