Excitation Energy and Frequency of Transition Spectral Line of Electron in an Asymmetry Quantum Dot
XIAO Jing-lin1,2
1. Department of Mathematics and Physics, Hebei Normal University of Science and Technology, Qinhuangdao 066004, China 2. College of Physics and Electronic Information, Inner Mongolia University for the Nationalities, Tongliao 028043, China
Abstract:In an asymmetry quantum dot, the properties of the electron, which is strongly coupled with phonon, were investigated. The variational relations of the first internal excited state energy, the excitation energy and the frequency of transition spectral line between the first internal excited state and the ground state of the electron which is strongly coupled with phonon in an asymmetry quantum dot with the transverse and longituainal effective confinement length of quantum dot and the electron-phonon coupling strength were studied by using a linear combination operator and the unitary transformation methods. Numerical calculations for the variational relations of the first internal excited state energy, the excitation energy and the frequency of transition spectral line between the first internal excited state and the ground state of the electron which is strongly coupled with phonon in an asymmetry quantum dot with the transverse and longituainal effective confinement length of quantum dot and the electron-phonon coupling strength were performed and the results show that the first internal excited state energy, the excitation energy and the frequency of transition spectral line between the first internal excited state and the ground state of the electron which is strongly coupled with phonon in an asymmetry quantum dot will strongly increase with decreasing the transverse and longitudinal effective confinement length. The first internal excited state energy of the electron which is strongly coupled with phonon in an asymmetry quantum dot will decrease with increasing the electron-phonon coupling strength. The excitation energy and the frequency of transition spectral line between the first internal excited state and the ground state of the electron which is strongly coupled with phonon in an asymmetry quantum dot will increase with increasing the electron-phonon coupling strength.
肖景林1,2. 非对称量子点中电子的激发能量和跃迁谱线频率[J]. 光谱学与光谱分析, 2009, 29(03): 598-601.
XIAO Jing-lin1,2. Excitation Energy and Frequency of Transition Spectral Line of Electron in an Asymmetry Quantum Dot . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(03): 598-601.