Citation: |
Xiao Wei, Xiao Jinglin. Influence of Magnetic and Coulomb Fields on Properties of a Strong-CouplingPolaron in a Semiconductor Quantum Dot[J]. Journal of Semiconductors, 2006, 27(12): 2118-2122.
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Xiao W, Xiao J L. Influence of Magnetic and Coulomb Fields on Properties of a Strong-CouplingPolaron in a Semiconductor Quantum Dot[J]. Chin. J. Semicond., 2006, 27(12): 2118.
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Influence of Magnetic and Coulomb Fields on Properties of a Strong-CouplingPolaron in a Semiconductor Quantum Dot
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Abstract
The influence of a magnetic field and Coulomb field on the properties of a strong-coupling polaron in a semiconductor quantum dot is studied using the linear combination operator and unitary transformation method.The relations between the vibration frequency and the ground state energy of a strong-coupling bound magnetopolaron in a semiconductor quantum dot with the confinement length of the quantum dot,the Coulomb bound potential,cyclotron resonance frequency of magnetic field,and electron-phonon coupling strength are derived.Numerical calculation results show that the vibration frequency and the ground state energy of the strong-coupling bound magnetopolaron increase strongly with the decreasing confinement length of quantum dot while increase with the increasing cyclotron resonance frequency of magnetic field.The ground state energy of the strong-coupling bound magnetopolaron decreases with the increasing electron-phonon coupling strength and Coulomb bound potential. -
References
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