Variational Path-Integral Study on Bound Polarons in Parabolic Quantum Dots and Wires

Chin. Phys. Lett.

2001, Vol. 18

Issue (5): 668-671 DOI:

Original Articles

Variational Path-Integral Study on Bound Polarons in Parabolic Quantum Dots and Wires

CHEN Qing-Hu;WANG Zhuang-Bing;WU Fu-Li;LUO Meng-Bo;YUAN Yong-Hong;JIAO Zheng-Kuan

Department of Physics, Zhejiang University, Hangzhou 310027

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CHEN Qing-Hu, WANG Zhuang-Bing, WU Fu-Li et al 2001 Chin. Phys. Lett. 18 668-671

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Abstract The expression of the ground-state energy of the electron coupled simultaneously with a Coulomb potential and a longitudinal-optical phonon field in parabolic quantum dots and wires is derived within the framework of Feynman variational path integral theory. We obtain a general result with arbitrary electron-phonon coupling constant, Coulomb binding parameters, and confining potential strength, which could be used for further numerical calculation of polaron properties. Moreover, it is shown that all the previous path-integral formulae for free polarons, bound polarons, and polarons confined in parabolic quantum dots and wires can be recovered in the present formalism.

Keywords: 71.38.+i 63.20.Kr

Published: 01 May 2001

PACS:	71.38.+i
	63.20.Kr

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y2001/V18/I5/0668

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	CHEN Qing-Hu
	WANG Zhuang-Bing
	WU Fu-Li
	LUO Meng-Bo
	YUAN Yong-Hong
	JIAO Zheng-Kuan

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