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The Effects of Hydrogen-Like Impurity and Temperature on State Energies and Transition Frequency of Strong-Coupling Bound Polaron in an Asymmetric Gaussian Potential Quantum Well
by
Xiao, Jing-lin
in
Asymmetry
/ ATOMIC AND MOLECULAR PHYSICS
/ Characterization and Evaluation of Materials
/ Chemical vapor deposition
/ Condensed Matter Physics
/ Coupling
/ Electric fields
/ Electrons
/ Energy
/ EXCITED STATES
/ GROUND STATES
/ HYDROGEN
/ IMPURITIES
/ Low temperature physics
/ Magnetic Materials
/ Magnetism
/ Mathematical analysis
/ Molecular beam epitaxy
/ NANOSCIENCE AND NANOTECHNOLOGY
/ Physics
/ Physics and Astronomy
/ POLARONS
/ Quantum statistics
/ QUANTUM WELLS
/ STRONG-COUPLING MODEL
/ Temperature effects
/ VARIATIONAL METHODS
2018
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The Effects of Hydrogen-Like Impurity and Temperature on State Energies and Transition Frequency of Strong-Coupling Bound Polaron in an Asymmetric Gaussian Potential Quantum Well
by
Xiao, Jing-lin
in
Asymmetry
/ ATOMIC AND MOLECULAR PHYSICS
/ Characterization and Evaluation of Materials
/ Chemical vapor deposition
/ Condensed Matter Physics
/ Coupling
/ Electric fields
/ Electrons
/ Energy
/ EXCITED STATES
/ GROUND STATES
/ HYDROGEN
/ IMPURITIES
/ Low temperature physics
/ Magnetic Materials
/ Magnetism
/ Mathematical analysis
/ Molecular beam epitaxy
/ NANOSCIENCE AND NANOTECHNOLOGY
/ Physics
/ Physics and Astronomy
/ POLARONS
/ Quantum statistics
/ QUANTUM WELLS
/ STRONG-COUPLING MODEL
/ Temperature effects
/ VARIATIONAL METHODS
2018
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The Effects of Hydrogen-Like Impurity and Temperature on State Energies and Transition Frequency of Strong-Coupling Bound Polaron in an Asymmetric Gaussian Potential Quantum Well
by
Xiao, Jing-lin
in
Asymmetry
/ ATOMIC AND MOLECULAR PHYSICS
/ Characterization and Evaluation of Materials
/ Chemical vapor deposition
/ Condensed Matter Physics
/ Coupling
/ Electric fields
/ Electrons
/ Energy
/ EXCITED STATES
/ GROUND STATES
/ HYDROGEN
/ IMPURITIES
/ Low temperature physics
/ Magnetic Materials
/ Magnetism
/ Mathematical analysis
/ Molecular beam epitaxy
/ NANOSCIENCE AND NANOTECHNOLOGY
/ Physics
/ Physics and Astronomy
/ POLARONS
/ Quantum statistics
/ QUANTUM WELLS
/ STRONG-COUPLING MODEL
/ Temperature effects
/ VARIATIONAL METHODS
2018
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The Effects of Hydrogen-Like Impurity and Temperature on State Energies and Transition Frequency of Strong-Coupling Bound Polaron in an Asymmetric Gaussian Potential Quantum Well
Journal Article
The Effects of Hydrogen-Like Impurity and Temperature on State Energies and Transition Frequency of Strong-Coupling Bound Polaron in an Asymmetric Gaussian Potential Quantum Well
2018
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Overview
In the present work, we study the ground state energy, the first excited state energy and the transition frequency (TF) between the two states of the strong-coupling impurity bound polaron in an asymmetric Gaussian potential quantum well (AGPQW) by using the variational method of the Pekar type. By employing quantum statistics theory, the temperature effect on the state energies (SEs) and the TF are also calculated with a hydrogen-like impurity at the coordinate origin of the AGPQW. According to the obtained results, we found that the SEs and the TF are increasing functions of the temperature, whereas they are decreasing ones of the Coulombic impurity potential.
Publisher
Springer US,Springer Nature B.V
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