Frequency dependent polarizability of confined harmonic oscillators

T. G. Pedersen; B. L. Burrows

doi:10.1088/1402-4896/ad4c9c

Frequency dependent polarizability of confined harmonic oscillators

T. G. Pedersen, B. L. Burrows^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

The D-dimensional Schrödinger equation for a confined harmonic potential perturbed by a time-dependent dipole field is analysed. The model uses exact confined solutions for the harmonic potential whereas the time-dependent field is treated using first-order time-dependent perturbation theory. Exact analytic solutions are obtained in terms of generalised Laguerre functions. This system has applications to nanostructures where there are strong confinement potentials in some dimensions and example calculations are carried out to illustrate the effect of the dimension.

Original language	English
Article number	075609
Journal	Physica Scripta
Volume	99
Issue number	7
ISSN	0031-8949
DOIs	https://doi.org/10.1088/1402-4896/ad4c9c
Publication status	Published - 1 Jul 2024

Bibliographical note

Publisher Copyright:
© 2024 IOP Publishing Ltd.

Keywords

confined harmonic potential
D-dimensional Schrodinger equation
frequency dependent polarizability

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10.1088/1402-4896/ad4c9c

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N2 - The D-dimensional Schrödinger equation for a confined harmonic potential perturbed by a time-dependent dipole field is analysed. The model uses exact confined solutions for the harmonic potential whereas the time-dependent field is treated using first-order time-dependent perturbation theory. Exact analytic solutions are obtained in terms of generalised Laguerre functions. This system has applications to nanostructures where there are strong confinement potentials in some dimensions and example calculations are carried out to illustrate the effect of the dimension.

AB - The D-dimensional Schrödinger equation for a confined harmonic potential perturbed by a time-dependent dipole field is analysed. The model uses exact confined solutions for the harmonic potential whereas the time-dependent field is treated using first-order time-dependent perturbation theory. Exact analytic solutions are obtained in terms of generalised Laguerre functions. This system has applications to nanostructures where there are strong confinement potentials in some dimensions and example calculations are carried out to illustrate the effect of the dimension.

KW - confined harmonic potential

KW - D-dimensional Schrodinger equation

KW - frequency dependent polarizability

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DO - 10.1088/1402-4896/ad4c9c

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VL - 99

JO - Physica Scripta

JF - Physica Scripta

IS - 7

M1 - 075609

ER -

Frequency dependent polarizability of confined harmonic oscillators

Abstract

Bibliographical note

Keywords

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