Algebraic discrete quantum harmonic oscillator with dynamic resolution scaling

Michael Q. May; Hong Qin

doi:10.1088/1751-8121/ad7ae5

Algebraic discrete quantum harmonic oscillator with dynamic resolution scaling

Michael Q. May
, Hong Qin

PPPL Computational Science

Research output: Contribution to journal › Article › peer-review

Abstract

We develop an algebraic formulation for the discrete quantum harmonic oscillator (DQHO) from the Hamiltonian for two, coupled QHOs and provide a physical picture for the Kravchuk function eigenstates of the oscillator. The familiar su ( 2 ) structure of the coupled QHO Hamiltonian divides its spectrum into sets corresponding to the DQHO at different resolutions. In addition to energy ladder operators, the formulation allows for the introduction of resolution ladder operators connecting all DQHOs with different resolutions, thus enabling the dynamic scaling of the resolution of finite degree-of-freedom quantum simulations. The coherent state of the DQHO is constructed, and its expected position is proven to oscillate as a classical harmonic oscillator. The DQHO coherent state recovers that of the quantum harmonic oscillator at large resolution.

Original language	English (US)
Article number	415304
Journal	Journal of Physics A: Mathematical and Theoretical
Volume	57
Issue number	41
DOIs	https://doi.org/10.1088/1751-8121/ad7ae5
State	Published - Nov 1 2024

All Science Journal Classification (ASJC) codes

Statistical and Nonlinear Physics
Statistics and Probability
Modeling and Simulation
Mathematical Physics
General Physics and Astronomy

Keywords

discrete quantum harmonic oscillator
dynamic resolution adjustment
lie algebras
quantum computation
su(2) oscillator

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10.1088/1751-8121/ad7ae5

Cite this

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title = "Algebraic discrete quantum harmonic oscillator with dynamic resolution scaling",

abstract = "We develop an algebraic formulation for the discrete quantum harmonic oscillator (DQHO) from the Hamiltonian for two, coupled QHOs and provide a physical picture for the Kravchuk function eigenstates of the oscillator. The familiar su ( 2 ) structure of the coupled QHO Hamiltonian divides its spectrum into sets corresponding to the DQHO at different resolutions. In addition to energy ladder operators, the formulation allows for the introduction of resolution ladder operators connecting all DQHOs with different resolutions, thus enabling the dynamic scaling of the resolution of finite degree-of-freedom quantum simulations. The coherent state of the DQHO is constructed, and its expected position is proven to oscillate as a classical harmonic oscillator. The DQHO coherent state recovers that of the quantum harmonic oscillator at large resolution.",

keywords = "discrete quantum harmonic oscillator, dynamic resolution adjustment, lie algebras, quantum computation, su(2) oscillator",

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T1 - Algebraic discrete quantum harmonic oscillator with dynamic resolution scaling

AU - May, Michael Q.

AU - Qin, Hong

PY - 2024/11/1

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N2 - We develop an algebraic formulation for the discrete quantum harmonic oscillator (DQHO) from the Hamiltonian for two, coupled QHOs and provide a physical picture for the Kravchuk function eigenstates of the oscillator. The familiar su ( 2 ) structure of the coupled QHO Hamiltonian divides its spectrum into sets corresponding to the DQHO at different resolutions. In addition to energy ladder operators, the formulation allows for the introduction of resolution ladder operators connecting all DQHOs with different resolutions, thus enabling the dynamic scaling of the resolution of finite degree-of-freedom quantum simulations. The coherent state of the DQHO is constructed, and its expected position is proven to oscillate as a classical harmonic oscillator. The DQHO coherent state recovers that of the quantum harmonic oscillator at large resolution.

AB - We develop an algebraic formulation for the discrete quantum harmonic oscillator (DQHO) from the Hamiltonian for two, coupled QHOs and provide a physical picture for the Kravchuk function eigenstates of the oscillator. The familiar su ( 2 ) structure of the coupled QHO Hamiltonian divides its spectrum into sets corresponding to the DQHO at different resolutions. In addition to energy ladder operators, the formulation allows for the introduction of resolution ladder operators connecting all DQHOs with different resolutions, thus enabling the dynamic scaling of the resolution of finite degree-of-freedom quantum simulations. The coherent state of the DQHO is constructed, and its expected position is proven to oscillate as a classical harmonic oscillator. The DQHO coherent state recovers that of the quantum harmonic oscillator at large resolution.

KW - discrete quantum harmonic oscillator

KW - dynamic resolution adjustment

KW - lie algebras

KW - quantum computation

KW - su(2) oscillator

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U2 - 10.1088/1751-8121/ad7ae5

DO - 10.1088/1751-8121/ad7ae5

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AN - SCOPUS:85205665142

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JO - Journal of Physics A: Mathematical and Theoretical

JF - Journal of Physics A: Mathematical and Theoretical

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M1 - 415304

ER -

Algebraic discrete quantum harmonic oscillator with dynamic resolution scaling

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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