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Magnetic field and temperature dependence of the properties of the ground state of the strong-coupling bound magnetopolaron in quantum rods with hydrogenic impurity 被引量:1

Magnetic field and temperature dependence of the properties of the ground state of the strong-coupling bound magnetopolaron in quantum rods with hydrogenic impurity
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摘要 Magnetic field and temperature dependence of the properties of the ground state of the strong-coupling bound magnetopolaron in quantum rods (QRs) with hydrogenic impurity is studied by means of the Huybrechts- Lee-Low-Pines transformation method and the quantum statistical theory. The expressions for the ground-state energy and the mean number ofphonons of the magnetopolaron are derived. Results of the numerical calculations show that the bound state of the magnetopolaron cannot be formed when the value of the aspect ratio of the QR, the dielectric constant ratio, the electron-phonon coupling strength or the temperature parameter is small. The larger the deviation of the value of aspect ratio e′ from 1 is, the more it is unfavorable to the stability of the ground state of the magnetopolaron. When the magnetopolaron is in the bound state, the absolute value of its ground-state energy and its mean number ofphonons increase with an increase of the dielectric constant ratio and confinement strength of QRs, but decrease with an increase in the cyclotron frequency of the external magnetic field and the temperature. The absolute value of the ground-state energy and the mean number of phonons of the magnetopolaron decrease with decreasing e′ when e′ 〈 1, but decrease with increasing e′ when e′ 〉 1. They get the maximum value at e′=1. Magnetic field and temperature dependence of the properties of the ground state of the strong-coupling bound magnetopolaron in quantum rods (QRs) with hydrogenic impurity is studied by means of the Huybrechts- Lee-Low-Pines transformation method and the quantum statistical theory. The expressions for the ground-state energy and the mean number ofphonons of the magnetopolaron are derived. Results of the numerical calculations show that the bound state of the magnetopolaron cannot be formed when the value of the aspect ratio of the QR, the dielectric constant ratio, the electron-phonon coupling strength or the temperature parameter is small. The larger the deviation of the value of aspect ratio e′ from 1 is, the more it is unfavorable to the stability of the ground state of the magnetopolaron. When the magnetopolaron is in the bound state, the absolute value of its ground-state energy and its mean number ofphonons increase with an increase of the dielectric constant ratio and confinement strength of QRs, but decrease with an increase in the cyclotron frequency of the external magnetic field and the temperature. The absolute value of the ground-state energy and the mean number of phonons of the magnetopolaron decrease with decreasing e′ when e′ 〈 1, but decrease with increasing e′ when e′ 〉 1. They get the maximum value at e′=1.
出处 《Journal of Semiconductors》 EI CAS CSCD 2013年第5期1-6,共6页 半导体学报(英文版)
基金 supported by the Natural Science Foundation of Hebei Province(No.A2008000463) the Science and Technology Research and Development Plan of Qinhuangdao(No.201101A027)
关键词 quantum rods hydrogenic impurity MAGNETOPOLARON ground-state energy mean number ofphonons temperature dependence quantum rods hydrogenic impurity magnetopolaron ground-state energy mean number ofphonons temperature dependence
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  • 1Sun B Q, Jiang D S. Photon localization and lasing in disordered GaNAs optical superlattices. Phys Rev B, 2006, 73:195112.
  • 2Sun B Q, Jiang D S, Sun Z, et al. Photoinduced spin alignment of the magnetic ions in (Ga,Mn)As. J Appl Phys, 2006, 100:83104.
  • 3Li S S, Xia J B. Linear Rashba model of a hydrogenic donor impurity in GaAs/GaA1As quantum wells. Nanoscale Res Lett, 2009, 4:178.
  • 4Yang F, Zheng R S. Properties of optical phonons in Zn1-x-yMgyBexSe quaternary mixed crystal. Solid State Com- mun, 2007, 141:555.
  • 5Gong J, Liang X X, Ban S L. Confined LO-phonon assisted tun- neling in a parabolic quantum well with double barriers. J Appl Phys, 2006, 100:023707.
  • 6Eerdunchaolu, Xiao J L. Effects of lattice vibration on the prop- erties of the strong-coupling polaron in a quantum well. J Phys Soc Jr)n, 2007, 76:044702.
  • 7Reed M A, Bate R T, Bradshaw K, et al. Spatial quantization in GaAs-A1GaAs multiple quantum dots. J Vac Sci Technol B, 1986, 4:358.
  • 8Klein M C, Hache F, Ricard E, et al. Size dependence ofelectron- phonon coupling in semiconductor nanospheres: the case of CdSe. Phys Rew B, 1990, 42:11123.
  • 9Charrour R, Bouhassoune M, Bria D, et al. Polaron effect on the binding energy of shallow donor in cylindrical quantum dot. Acta Phys Pol A, 1999, 96:759.
  • 10Melnikov D V, Fowler W B. Electron-phonon interaction in a spherical quantum dot with finite potential barriers: the Fr6hlich Hamiltonian. Phys Rew B, 2001, 64:245320.

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