The Gauge-Relativity of Quantum Light, Matter, and Information

Adam Stokes; Hannah Riley; Ahsan Nazir

doi:10.1142/S1230161223500166

The Gauge-Relativity of Quantum Light, Matter, and Information

Adam Stokes, Hannah Riley, Ahsan Nazir

Theoretical Physics Group

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

Abstract

We describe the physical relativity of light and matter quantum subsystems, their correlations, and energy exchanges. We examine the most commonly adopted definitions of atoms and photons, noting the significant difference in their localisation properties when expressed in terms of primitive manifestly gauge-invariant and local fields. As a result, different behaviours for entanglement generation and energy exchange occur for different definitions. We explore such differences in detail using toy models of a single photonic mode interacting with one and two dipoles.

Original language	English
Article number	2350016
Journal	Open Systems and Information Dynamics
Volume	30
Issue number	3
DOIs	https://doi.org/10.1142/S1230161223500166
Publication status	Published - 1 Sept 2023

Keywords

causality
Entanglement
gauge freedom
light-matter interactions
locality
quantum electrodynamics
subsystem relativity

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10.1142/S1230161223500166

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abstract = "We describe the physical relativity of light and matter quantum subsystems, their correlations, and energy exchanges. We examine the most commonly adopted definitions of atoms and photons, noting the significant difference in their localisation properties when expressed in terms of primitive manifestly gauge-invariant and local fields. As a result, different behaviours for entanglement generation and energy exchange occur for different definitions. We explore such differences in detail using toy models of a single photonic mode interacting with one and two dipoles.",

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AB - We describe the physical relativity of light and matter quantum subsystems, their correlations, and energy exchanges. We examine the most commonly adopted definitions of atoms and photons, noting the significant difference in their localisation properties when expressed in terms of primitive manifestly gauge-invariant and local fields. As a result, different behaviours for entanglement generation and energy exchange occur for different definitions. We explore such differences in detail using toy models of a single photonic mode interacting with one and two dipoles.

KW - causality

KW - Entanglement

KW - gauge freedom

KW - light-matter interactions

KW - locality

KW - quantum electrodynamics

KW - subsystem relativity

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The Gauge-Relativity of Quantum Light, Matter, and Information

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Keywords

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