Shock waves in gas-jet target of a laser-produced-plasma short-wave-radiation source with two-pulse plasma excitation

Garbaruk A. V.; Gritskevich M. S.; Kalmykov S. G.; Mozharov A. M.; Petrenko M. V.; Sasin M. E.

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Shock waves in gas-jet target of a laser-produced-plasma short-wave-radiation source with two-pulse plasma excitation

机译：两脉冲等离子体激发的激光产生等离子体短波辐射源的气体靶中的冲击波

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Previous investigations of the laser plasma at two-pulse mode of its generation revealed long-living perturbations of the gas-jet target by the first pulse, leading to significant modulations of the plasma radiation. In the present paper, results of a numerical hydrodynamic simulation of the gas-jet target are reported which provide explanation of the observed phenomena. An impact of the first pulse (prepulse) upon the target results in formation of a dense quasi-spherical layer in it, with a low-density area inside. This layer expands with the time and drifts downstream with the gas flow. Depending on the time interval between pulses, the second laser pulse can either intersect the dense layer or pass through the low-density gas, whereby the observed modulations of the plasma emission can be explained.

机译：以前在产生两脉冲模式下对激光等离子体的研究表明，第一脉冲对气体喷射目标产生了长期的扰动，从而导致了等离子体辐射的显着调制。在本文中，报道了对喷气目标的流体动力学数值模拟的结果，该结果为观察到的现象提供了解释。第一个脉冲（预脉冲）对目标的撞击导致在其中形成致密的准球形层，并在内部形成一个低密度区域。该层随时间扩展，并随气流向下游漂移。取决于脉冲之间的时间间隔，第二激光脉冲可以与致密层相交或穿过低密度气体，从而可以解释观察到的等离子体发射的调制。

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《Technical physics letters: Letters to the Russian journal of applied physics》 |2014年第11期|共4页
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Garbaruk A. V.; Gritskevich M. S.; Kalmykov S. G.; Mozharov A. M.; Petrenko M. V.; Sasin M. E.;
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正文语种 eng
中图分类工程物理学;物理学;
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1. Shock waves in gas-jet target of a laser-produced-plasma short-wave-radiation source with two-pulse plasma excitation [J] . Garbaruk A. V., Gritskevich M. S., Kalmykov S. G., Technical physics letters: Letters to the Russian journal of applied physics . 2014,第11期

机译：两脉冲等离子体激发的激光产生等离子体短波辐射源的气体靶中的冲击波
2. The Effect of a UV Preionization Pulse on Short-Wave Radiation Output from a Laser-Produced-Plasma Source with a Xe Gas-Jet Target [J] . V. V. Zabrodskii, Yu. M. Zadiranov, S. G. Kalmykov, Technical physics letters: Letters to the Russian journal of applied physics . 2014,第8期

机译：紫外线预电离脉冲对具有Xe气体喷射靶的激光等离子体源输出的短波辐射的影响
3. A New Method of Suppressing Peripheral Absorption in a Laser-Plasma Short-Wave Radiation Source with a Xe Gas-Jet Target [J] . Butorin P. S., Kalmykov S. G., Sasin M. E. Technical physics letters: Letters to the Russian journal of applied physics . 2018,第12期

机译：一种抑制激光等离子体短波辐射源的外周吸收的新方法，具有XE气流射流靶
4. Low density targets for laser-produced-plasma (LPP) extreme ultraviolet light source with high-CE and toward high-repetition supply [C] . Keiji Nagai, Liqin Ge, Pejun Cai, Conference on Emerging Lithographic Technologies . 2008

机译：低密度靶标，用于具有高CE的激光产生等离子体（LPP）极紫外光源，并用于高重复供应
5. Investigations into glow discharge plasmas as atomization and excitation sources for analytical atomic spectrometry. [D] . Pavski, Victor. 1997

机译：研究辉光放电等离子体作为分析原子光谱法的雾化和激发源。
6. Effects of excitation laser wavelength on Ly-α and He-α line emission from nitrogen plasmas [O] . S. S. Harilal, G. V. Miloshevsky, T. Sizyuk, -1

机译：激发激光波长对氮等离子体中Ly-α和He-α线发射的影响
7. Excitation of dust acoustic shock waves in an inhomogeneous dusty plasma [O] . Garima Arora, P. Bandyopadhyay, M. G. Hariprasad, 2020

机译：在非均匀尘土尘埃等离子体中的灰尘声冲击波激发
8. Saturation of the Xe III 109-nm Laser Using Traveling-Wave Laser-Produced-Plasma Excitation, [R] . Sher, M. H., Macklin, J. J., Young, J. F., 1987

机译：使用行波激光产生等离子体激发的Xe III 109nm激光器的饱和度，

Shock waves in gas-jet target of a laser-produced-plasma short-wave-radiation source with two-pulse plasma excitation

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