Quantum coherence in the dynamical excitation, ionization, and decaying of neon gas induced by X-ray laser
| Autor: | Li, Yongqiang, Gao, Cheng, Dong, Wenpu, Zeng, Jiaolong, Yuan, Jianmin |
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| Rok vydání: | 2015 |
| Předmět: | |
| Zdroj: | Scientific Reports 6: 18529 (2016) |
| Druh dokumentu: | Working Paper |
| DOI: | 10.1038/srep18529 |
| Popis: | We develop a large scale quantum master equation approach to describe dynamical processes of practical open quantum systems driven by both coherent and stochastic interactions by including more than one thousand true states of the systems, motivated by the development of highly bright and fully coherent lasers in the X-ray wavelength regime. The method combines the processes of coherent dynamics induced by the X-ray laser and incoherent relaxations due to spontaneous emissions, Auger decays, and electronic collisions. As examples, theoretical investigation of {\it real} coherent dynamics of inner-shell electrons of a neon gas, irradiated by a high-intensity X-ray laser with a full temporal coherence, is carried out with the approach. In contrast to the rate equation treatment, we find that coherence can suppress the multiphoton absorptions of a neon gas in the ultra-intense X-ray pulse, due to coherence-induced Rabi oscillations and power broadening effects. We study the influence of coherence on ionization processes of neon, and directly prove that sequential single-photon processes for both outer- and inner-shell electrons dominate the ionizations for the recently typical experiments with a laser intensity of $\approx10^{18}$ ${\rm W/cm^2}$. We discuss possible experimental implementations such as signatures for coherent evolution of inner-shell electrons via resonance fluorescence processes. The approach can also be applied to many different practical open quantum systems in atomic, quantum optical, and cold matter systems, which are treated qualitatively by a few-level master equation model before. Comment: 14 pages, 8 figures |
| Databáze: | arXiv |
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