模拟ps激光驱动的类氖锗19.6nm X光激光
[1] Smith R F; Dunn J; Nilsen J; et al. Picosecond X-ray laser interferometry of dense plasma[J]. Phys Rev Lett; 2002; 89: 065004.
[2] Rocca J J; Hammarsten E C; Jankowska E; et al. Application of extremely compact capillary discharge soft X-ray lasers to dense plasma diagnostics[J]. Physics of Plasmas; 2003; 10: 5.
[3] Rosen M D; Hagelstein P L; Matthews D L; et al. Exploding-foil technique for achieving a soft X-ray laser[J]. Phys Rev Lett;1985;54:106.
[4] Afanasiev Y V; Shlyaptsev V N. Formation of a population inversion in Ne-like ions in steady-state and transient plasmas[J]. SovJ Quant Electron; 1989; 19: 1606-1612.
[5] Healy S B; Janulewicz K A; Plowes J A; et al. Transient high gains at 19.6 nm produced by picosecond pulse heating of a preformed germanium plasma[J]. Opt Communications; 1996; 132: 442-448.
[6] Nickles P V; Shlyaptsev V N; Kalachnikov M P; et al. Short pulse X-ray laser at 32.6nm based on transient gain in Ne-like titanium[J].Phys Rev Lett; 1997; 78: 2748-2751.
[7] Dunn J; Osterheld A L; Shepherd R; et al. Demonstration of X-ray amplification in transient gain Nickel-like palladium scheme[J]. Phys Rev Lett; 1998; 80: 2825-2828.
[8] Klisnick A; Kuba J; Ros D; et al. Demonstration of 2 ps transient X-ray laser[J]. Phys Rev A; 2002; 65; 033810.
[9] King R E; Pert G J; Mccabe S P; et al. Saturated X-ray lasers at 19.0nm and 7. 3nm pumped by a picosecond traveling-wave excitation[J].PhysRevA; 2000; 64: 053810.
[10] Linford G J; Peressini E R; Soody W R; et al. Very long lasers[J]. Appl Opt;1974; 13: 379.
乔秀梅, 张国平, 张覃鑫. 模拟ps激光驱动的类氖锗19.6nm X光激光[J]. 强激光与粒子束, 2005, 17(1): 71. QIAO Xiu-mei, ZHANG Guo-ping, ZHANG Tan-xin. Simulation of Ne-like Ge 19.6 nm X-ray laser driven by picosecond laser pulse[J]. High Power Laser and Particle Beams, 2005, 17(1): 71.
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