Rydberg excitons in cuprous oxide: A two-particle system with classical chaos

Jan Ertl, Sebastian Rentschler, Jörg Main
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Abstract

When an electron in a semiconductor gets excited to the conduction band the missing electron can be viewed as a positively charged particle, the hole. Due to the Coulomb interaction electrons and holes can form a hydrogen-like bound state called exciton. For cuprous oxide a Rydberg series up to high principle quantum numbers has been observed by Kazimierczuk et al. [Nature 514, 343 (2014)] with the extension of excitons up to the $\mu$m-range. In this region the correspondence principle should hold and quantum mechanics turn into classical dynamics. Due to the complex valence band structure of Cu$_2$O the classical dynamics deviates from a purely hydrogen-like behavior. The uppermost valence band in cuprous oxide splits into various bands resulting in a yellow and green exciton series. Since the system exhibits no spherical symmetry, the angular momentum is not conserved. Thus, the classical dynamics becomes non-integrable, resulting in the possibility of chaotic motion. Here we investigate the classical dynamics of the yellow and green exciton series in cuprous oxide for two-dimensional orbits in the symmetry planes as well as fully three-dimensional orbits. The analysis reveals substantial differences between the dynamics of the yellow and green exciton series. While it is mostly regular for the yellow series large regions in phase space with classical chaos do exist for the green exciton series.
氧化亚铜中的里贝格激子:具有经典混沌的双粒子系统
当半导体中的电子被激发到传导带时,失电子可被视为带正电的粒子,即空穴。由于库仑相互作用,电子和空穴可以形成一种类似氢的结合态,称为激子。对于氧化亚铜,Kazimierczuk 等人[Nature 514, 343(2014)]已经观测到了高达原理量子数的雷德伯格系列,激子扩展到了 $\mu$m 范围。在这一范围内,对应原理应该成立,量子力学将转变为经典动力学。由于 Cu$_2$O 的价带结构复杂,经典动力学偏离了纯粹的类氢行为。氧化亚铜的最上层价带分裂成不同的价带,形成黄色和绿色的激子系列。由于系统不具有球形对称性,所以角动量不守恒。因此,经典动力学变得不可解,从而可能产生混沌运动。在这里,我们研究了氧化亚铜中黄色和绿色激子系列在对称平面内的二维轨道以及完全三维轨道的经典动力学。分析结果表明,黄色和绿色激子系列的动力学存在很大差异。虽然黄色激子系列的相空间大多是规则的,但绿色激子系列的相空间中确实存在大面积的经典混沌区域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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