钇铁石榴石快速重离子碰撞后的电子动力学

R. Rymzhanov
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引用次数: 0

摘要

应用TREKIS蒙特卡罗模型研究了钇铁石榴石在快速重离子碰撞后的时间电子动力学。在复介电函数动态结构因子形式中确定了入射粒子与目标相互作用的截面。我们发现了电子激发的两种空间传播模式:快速德尔塔电子形成了激发的前沿,而由于轨道中产生的等离子体的衰变而产生的电子形成了第二个前沿,在第一个前沿之后缓慢地形成。对靶晶格加热机制的分析指出,由于离子轨道中产生的价空穴的复合而释放的势能有重要贡献。由莫特截面描述的电子和空穴的弹性散射引起的过量晶格能的增加是很小的。相反,复介电函数形式证明了这些过程对晶格加热的重要贡献。
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ELECTRON KINETICS OF YTTRIUM IRON GARNET AFTER SWIFT HEAVY ION IMPACT
The TREKIS Monte-Carlo model was applied to study the temporal electronic kinetics of yttrium iron garnet after a swift heavy ion impact. Cross sections of incident particles interaction with the target were determined within complex dielectric function-dynamic structure factor formalism. We found two modes of the spatial propagation of electronic excitation: fast delta-electrons form a front of the excitation while electrons produced due to decay of plasmons generated in a track form the second front slowly following behind the first one.Analysis of mechanisms of target lattice heating pointed to an important contribution of the potential energy released due to recombination of valence holes generated in an ion track. An increase of the excess lattice energy due to elastic scatterings of electrons and holes described with Mott cross-sections is minor. In contrast, complex dielectric function formalism demonstrates the significant contribution of these processes to the heating of the lattice.
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