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【期刊论文】Simulation study of a Ne-like Ti x-ray laser at 32.6nm driven by femtosecond laser pulses
李英骏, X. Lu, Y. J. Li, Y. Cang, K. Li, and J. Zhang, *
PHYSICAL REVIEW A 67, 013810 (2003),-0001,():
-1年11月30日
A femtosecond laser driven collisional Ne-like Ti x-ray laser at 32.6nm is numerically investigated using a hydrodynamic code coupled with an atomic data package for a 100-mm-thick Ti planar target irradiated by a single or double prepulse followed by an intense femtosecond laser pulse. By using an optimized drive pulse configuration, a gain of 40cm-1 can be generated from a 5mm×50μm line focus using only about 1 J pump energy.
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【期刊论文】Effects of delay time on transient Ni-like x-ray lasers
李英骏, Y. J. Li, , X. Lu, and J. Zhang, *
PHYSICAL REVIEW E 66, 046501 (2002),-0001,():
-1年11月30日
In transient collisional excitation scheme, a long (nanosecond) prepulse is used to perform and ionize plasmas. After a delay time, a short (sub-or picosecond) intense laser pulse is used to rapidly heat the plasma. This results in transient x-ray lasers with high gain. Effects of delay time on transient collisional excitation nickel-like x-ray lasers are investigated analytically using a simple model. The calculations show that the longer delay time can greatly relax the density gradient. This is very critical for the propagation of x-ray lasers. However, a too long delay will reduce the electron temperature of the plasma before the arrival of the short pulse. Increasing the intensity of the long pulse or extending the pulse duration can keep the temperature required to maintain a high percentage of Ni-like ions while the delay time is longer. Similarly, increasing the intensity of the short pulse or extending the duration can also raise the electron temperature, resulting in higher gain coefficient. Our results indicate that extending the pulse duration is more efficient than that of increasing the intensity.
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李英骏, Hui Yang, Jie Zhang, * Yingjun Li, Jun Zhang, Yutong Li, Zhenglin Chen, Hao Teng, Zhiyi Wei, and Zhengming Sheng
PHYSICAL REVIEW E 66, 016406 (2002),-0001,():
-1年11月30日
With ultrashort laser pulses (25 fs) and low energy (E=15mJ), we observe laser plasma channels with a length over 5m in air. The diameter of the plasma channel is measured to be 120mm. The average electron density in the channel is inferred to be about 10 18W/cm3 with an interferometric method. At the same time, the temporal evolution of the electron density in the plasma channel is investigated. The resistivity in the plasma channel is measured to be less than 1V cm. It is suggested that the lifetime of the plasma channel can be greatly prolonged by launching another long laser pulse along the plasma channel.
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【期刊论文】Hydrodynamic characteristics of transient Ni-like x-ray lasers
李英骏, Y. J. Li and J. Zhang*
PHYSICAL REVIEW E, VOLUME 63, 036410,-0001,():
-1年11月30日
A simple similarity model is presented to study the hydrodynamics of transient collisional excitation nickellike x-ray lasers. Scaling laws for the temperature, scale length, and electron density are obtained by analytic derivation. The hydrodynamic characteristics of transient Ni-like Pd x-ray lasers are investigated using this model. The calculations agree well with Dunn's experimental results.
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【期刊论文】Optimization of Drie Pules Configuration for a High-Gain Transient X-Ray Laser at 19.6nm *
李英骏, LU Xin, LI Ying-Jun, ZHANG Jie
CHIN. PHYS. LETT. Vol.18, NO.10 (2001) 1353-1355,-0001,():
-1年11月30日
An Ne-like transient collisional excitation x-ray laser at 19.6nmj (J-0→1.3P→3S) was investigated unmerically using a sopohisticated hydrodynamic code for a 100μm thick Ge plannar target irradiated by a nanosecond pre-pulse followed by a picosecond main optical laser pulse. The simulations indicate that for a given peak intensity, the main pulse has an optimal duration to generate the maximum effective gain, An effective gain as high as 200cm-1 was obtained for the optimized drive pulse configuration.
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