"Three-Dimensional Time Domain Simulation of the Quantum Magnetic Susceptibility" by Jennifer Houle

Selected Works of Jennifer E. Houle

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Three-Dimensional Time Domain Simulation of the Quantum Magnetic Susceptibility

International Journal of Magnetics of Electromagnetism (2018)

Jennifer Houle, University of Idaho
Dennis Sullivan, University of Idaho
Ethan Crowell, Washington State University
Sean Mossman, Washington State University
Mark G. Kuzyk, Washington State University

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Abstract

A method is described to simulate the magnetic susceptibility of a quantum toroid with grating. This simulation is based on the direct implementation of the time-dependent Schrödinger equation in three dimensions. The expectation value of the quantum magnetic dipole operator is calculated as a function of the applied magnetic field strength of a time-oscillating magnetic field. These expectation values are used to calculate the linear and nonlinear magnetic susceptibility of a torus.

Keywords

nonlinear optics,
induced magnetic dipole,
Quantum simulation,
magnetic susceptibility

Disciplines

Electrical and Computer Engineering

Publication Date

2018

DOI

https://doi.org/10.35840/2631-5068/6515

Citation Information

Jennifer Houle, Dennis Sullivan, Ethan Crowell, Sean Mossman, et al.. "Three-Dimensional Time Domain Simulation of the Quantum Magnetic Susceptibility" International Journal of Magnetics of Electromagnetism Vol. 4 Iss. 1 (2018) p. 15-1 - 15-12 ISSN: 2631-5068
Available at: http://works.bepress.com/jennifer-houle/5/

Creative Commons license

This work is licensed under a Creative Commons CC_BY International License.