Effect of temperature on the single-particle ground-state and self energy of a polar quantum dot with Gaussian confinement
Effect of temperature on the single-particle ground-state and self energy of a polar quantum dot with Gaussian confinement
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Date
2020-02-15
Authors
Jahan, K. Luhluh
Chatterjee, Ashok
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Abstract
The temperature dependence of the properties of a polaron in a Gaussian quantum dot has been investigated by using Lee-Low-Pines-Hybrechts variational technique and quantum statistical mechanics. It is shown that the ground-state energy increases with increasing temperature and the corresponding polaronic correction decreases. It is thus shown that for entire range of the coupling constant, polaronic effects decrease with increasing temperature.
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Keywords
Gaussian confinement,
Polaron self-energy,
Quantum dot,
Temperature effect
Citation
Physica B: Condensed Matter. v.579