Guiding of High Intensity Ultrashort Laser Pulses in Plasma Channels Produced with the Dual Laser Pulse Ignitor-Heater Technique

机译：双激光脉冲点火加热技术在等离子通道中产生高强度超短激光脉冲的指导

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We present results of experimental investigations of laser guiding in plasma channels. A new technique for plasma channel creation, the Ignitor - Heater scheme is proposed and experimentally tested in hydrogen and nitrogen. It makes use of two laser pulses. The Ignitor, an ultrashort (<100 fs) laser pulse, is brought to a line focus using a cylindrical lens to ionize the gas. The Heater pulse (160 ps long) is used subsequently to heat the existing spark via inverse Bremsstrahlung. The hydrodynamic shock expansion creates a partially evacuated plasma channel with a density minimum on axis. Such a channel has properties of an optical waveguide. This technique allows creation of plasma channels in low atomic number gases, such as hydrogen, which is of importance for guiding of highly intense laser pulses. The channel density was diagnosed with time resolved longitudinal interferometry. From these measurements the plasma temperature was inferred. The guiding properties of the channels were tested by injecting a >5x10~(17) W/cm~2, 75 fs laser pulse.

机译：我们目前在等离子通道中激光引导实验研究的结果。提出了一种创建等离子体通道的新技术，即“点火器-加热器”方案，并在氢气和氮气中进行了实验测试。它利用了两个激光脉冲。点火器是一种超短（<100 fs）的激光脉冲，使用圆柱透镜使气体电离，从而达到线聚焦。随后使用加热器脉冲（长160 ps）通过反向Bre致辐射加热现有火花。流体动力学的冲击膨胀产生了部分排空的等离子体通道，其轴向上的密度最小。这样的通道具有光波导的特性。该技术允许在低原子序数的气体（例如氢气）中创建等离子体通道，这对于引导高强度激光脉冲非常重要。通过时间分辨纵向干涉法诊断通道密度。从这些测量中推断出等离子体温度。通过注入> 5x10〜（17）W / cm〜2、75 fs的激光脉冲来测试通道的引导特性。

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《Eighth Workshop on Advanced Accelerator Concepts Baltimore, Maryland 6-11 July 1998》|1998年|p.514-523|共10页
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P. Volfbeyn; W. P. Leemans;
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1. Guiding of laser pulses in plasma channels created by the ignitor-heater technique [J] . Volfbeyn P., Leemans WP., Esarey E. Physics of plasmas . 1999,第5aPta2期

机译：用点火加热器技术在等离子体通道中引导激光脉冲
2. Peculiarities of Propagation and Amplification of Ultrashort Terahertz Pulses in Strongly Nonequilibrium Plasma Channels Produced in Air by UV Femtosecond Laser Pulses during Multiquantum Ionization [J] . Bogatskaya A. V., Volkova E. A., Popov A. M. Journal of Experimental and Theoretical Physics . 2020,第5期

机译：通过UV Femtosecond激光脉冲在多谜离电离期间在空气中产生的强烈凝固血浆通道的繁殖和扩增繁殖和扩增的特性
3. AMPLIFICATION AND GUIDING OF MICROWAVE RADIATION IN A PLASMA CHANNEL CREATED BY AN ULTRASHORT HIGH-INTENSITY LASER PULSE IN NOBLE GASES [J] . A. V. Bogatskaya, A. M. Popov, I. V. Smetanin Journal of Russian laser research . 2014,第5期

机译：超短脉冲高强度激光在等离子体中产生的等离子通道中微波辐射的放大和引导
4. Guiding of High Intensity Ultrashort Laser Pulses in Plasma Channels Produced with the Dual Laser Pulse Ignitor-Heater Technique. [C] . P. Volfbeyn, W. P. Leemans, American Institute of Physics Workshop on advanced accelerator concepts . 1999

机译：采用双激光脉冲点火器 - 加热器技术生产高强度超短激光脉冲的引导。
5. Guiding of terawatt laser pulses in performed plasma channels. [D] . Nikitin, Sergei Petrovich. 1999

机译：在执行的等离子通道中引导兆瓦级激光脉冲。
6. Guiding of laser pulses in plasma waveguides created by linearly-polarized femtosecond laser pulses [O] . N. Lemos, L. Cardoso, J. Geada, -1

机译：线性极化飞秒激光脉冲在等离子波导中引导激光脉冲
7. Guiding of high intensity ultrashort laser pulses in plasma channels produced with the dual laser pulse Ignitor-Heater technique. [O] . P. Volfbeyn, W. P. Leemans 1999

机译：采用双激光脉冲点火器 - 加热器技术生产高强度超短激光脉冲的引导。
8. Guiding of high intensity ultrashort laser pulses in plasma channels produced with the dual laser pulse ignitor-heater technique [R] . Volfbeyn, P., Leemans, W. P. 1998

机译：用双激光脉冲点火器 - 加热器技术引导等离子体通道中的高强度超短激光脉冲

Guiding of High Intensity Ultrashort Laser Pulses in Plasma Channels Produced with the Dual Laser Pulse Ignitor-Heater Technique

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