Al,Ti,Cu,Mo原子的K壳层电离截面的理论计算
熊勇, 易有根, 郑志坚. Al,Ti,Cu,Mo原子的K壳层电离截面的理论计算[J]. 强激光与粒子束, 2008, 20(1): 0159.
XIONG Yong, YI You-gen, ZHENG Zhi-jian. Computation of electron impact K-shell ionization cross sections of Al,Ti,Cu and Mo atoms[J]. High Power Laser and Particle Beams, 2008, 20(1): 0159.
[1] Teubner U,Uschmann I U,Gibbon P,et al. Absorption and hot electron production by high intensity femtosecond uv-laser pulses in solid targets[J]. Phys Rev E,1996,54: 4167-4177.
[2] Uddin M A,Haque A K F,Billah M M,et al. Computation of electron-impact K-shell ionization cross sections of atoms[J]. Phys Rev A,2005,71:032715.
[3] Reich C,Uschmann I,Ewald F,et al. Spatial characteristics of Kα X-ray emission from relativistic femtosecond laser plasmas[J]. Phys Rev E,2003,68:056408.
[4] Llovet X,Merlet C,Salvat F,et al. Measurements of K-shell ionization cross sections of Cr,Ni and Cu by impact of 6.5-40 keV electrons [J]. J Phys B,2000,33: 3761-3772.
[5] Liu M,T An Z ,Tang C H,et al. Experimental electron-impact K-shell ionization cross sections [J]. Atomic Data and Nuclear Data Tables,2000,76: 213-234.
[6] Khare S P,Prakash S. Electron-impact K-shell ionization of atoms[J]. Phys Rev A,1989,39: 6591-6593.
[7] Powell C J. Cross sections for ionization of inner-shell electrons by electrons[J]. Rev Mod Physi,1976,48: 33-47.
[8] Lotz W. Electron-impact ionization cross-sections for atoms up to Z=108[J]. Z Physik,1970 ,232: 101-107.
[9] Mott N F,Massey H S W. The theory of atomic collisions[M] 2nd ed. London: Oxford University Press,1949: 243.
熊勇, 易有根, 郑志坚. Al,Ti,Cu,Mo原子的K壳层电离截面的理论计算[J]. 强激光与粒子束, 2008, 20(1): 0159. XIONG Yong, YI You-gen, ZHENG Zhi-jian. Computation of electron impact K-shell ionization cross sections of Al,Ti,Cu and Mo atoms[J]. High Power Laser and Particle Beams, 2008, 20(1): 0159.
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