The Unruh-DeWitt Detector Model: Modified Dispersion and Nonlinear Couplings
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Date
2021-09-30
Authors
Sachs, A. Morgan
Advisor
Mann, Robert, 1955-
Kempf, Achim, 1964-
Kempf, Achim, 1964-
Journal Title
Journal ISSN
Volume Title
Publisher
University of Waterloo
Abstract
In this work, we employ the Unruh-DeWitt (UDW) detector model to various ends. We present applications of this relativistic detector model to quantum optics, including decoherence in optical cavities and non-linear quantum optics. We also relate an array of UDW-like models to the usual UDW model, which has the immediate consequence of yielding a tool to probe the entanglement structure of the Fermionic field, as well as many others. We are also able to show that entanglement harvesting is robust under dispersive effects, paving the way for tabletop experiments of the protocol.
Description
Keywords
entanglement, quantum field theory, Unruh-DeWitt detector, quantum information, relativistic quantum information, quantum optics, non-linear optics, analog gravity
LC Subject Headings
Quantum entanglement, Quantum field theory, Quantum computing, Relativistic quantum theory, Quantum optics