抛物量子点中强耦合束缚磁极化子的声子平均数

Average Number of Phonons of Strongcoupling Bound Magnetopolaron in a Parabolic Quantum Dot

采用线性组合算符和幺正变换方法导出了强耦合束缚磁极化子的振动频率和声子平均数。讨论了量子点的有效受限长度、磁场、库仑场和电子 LO声子耦合强度对抛物量子点中强耦合束缚磁极化子振动频率和声子平均数的影响。数值计算结果表明:强耦合束缚磁极化子的振动频率和声子平均数均随量子点的有效受限长度、回旋共振频率的增加而减小,随库仑束缚势的增加而增加,声子平均数随电子 LO声子耦合强度增加而减小。

With the development of several experimental techniques, for instance, metalorganic chemical vapour deposition, molecular beam epitaxy and electron beam lithography combined with reverse mesa etching, there has been of considerable interest in understanding of (hydrogenicimpurity) states in (lowdimensional) (semiconductor) heterostructures such as quantum wells, quantum well wires and quantum dots. In recent years, there has been great interest in investigating quantum dots both theoretically and experimentally. Due to the small structures of QD's, some physical properties such as optical and electron transport characteristic are quite different from those of the bulk materials. The study of the impurity states in these low dimensional structures is an important aspect to which many theoretical and experimental works based. Recent investigations in the reduced dimensionality show that the impurity binding energy will be enhanced with the deduction of the (dimensionality.) In recent years, the problem of a bound magnetopolaron in a quantum dot has been extensively studied. Petukhov et al. studied the hopping and giant magnetoresistance of a bound magnetic polaron in magnetic semiconductors and nanostrucrure with the golden rule at effective mass approximation. Charrour et al. presented a systematic study of the ground state binding energy of a hydrogenic impurity in cylindrical quantum dot subjected to an external strong magnetic field and performed calculations within the effectivemass approximation (using) the variational procedure and considering an infinite confining potential on all surfaces of the system. Liu et al. investigated properties of the bound magnetopolaron in a quantum wires. Bouhassoune et al. studied magnetic field effect on the binding energy of a bound polaron in a quantum well by a variational method. Nguyen et al. analysed magnetic field effects of parabolic confining potentials on the binding energy of hydrogen impurities in quantum dots using a very simple trial function with only one variational parameter. Chen (et al.) derived ground state properties of the bound magnetopolaron using the linear combination operator and unitary transformation method. Corella et al. calculated the ground state and binding energy for the hydrogen impurity in a spherical quantum dot by using the variational method. Zhou et al. derived energy levels of the bound magnetopolaron by the variational method. Li et al. investigated the influence of magnetic field on the binding energy of a hydrogenic impurity in cubic quantum dots, and so on. In the present paper, by using the linear combination operator and unitary transformation method, properties of the bound magnetopolaron in a parabolic quantum dot are studied for the strong electronLOphonon coupling case. Results show that the vibration frequency of the bound magnetopolaron decreases with the (cyclotron) resonance frequency, the effective confinement length increasing and it increases with the Coulomb (potential) increasing. The average number of phonons decreases when the effective confinement length, the (cyclotron) resonance frequency increased, and it increases when the Coulomb potential enhanced.