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Main Authors: Kansanen, Kalle S. U., Portugal, Pedro, Flindt, Christian, Samuelsson, Peter
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.20477
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author Kansanen, Kalle S. U.
Portugal, Pedro
Flindt, Christian
Samuelsson, Peter
author_facet Kansanen, Kalle S. U.
Portugal, Pedro
Flindt, Christian
Samuelsson, Peter
contents The statistics of transmitted photons in microwave cavities play a foundational role in microwave quantum optics and its technological applications. By utilizing quantum mechanical phase-space methods, we here develop a general theory of the photon counting statistics in Gaussian bosonic networks consisting of driven cavities with beamsplitter interactions and two-mode-squeezing. The dynamics of the network can be captured by a Lyapunov equation for the covariance matrix of the cavity fields, which generalizes to a Riccati equation, when counting fields are included. By solving the Riccati equation, we obtain the statistics of emitted and absorbed photons as well as the time-dependent correlations encoded in waiting time distributions and second-order coherence functions. To illustrate our theoretical framework, we first apply it to a simple linear network consisting of two coupled cavities, for which we evaluate the photon cross-correlations and discuss connections between the photon emission statistics and the entanglement between the cavities. We then consider a bosonic circulator consisting of three coupled cavities, for which we investigate how a synthetic flux may affect the direction of the photon flow, similarly to recent experiments. Our general framework paves the way for systematic investigations of the photon counting statistics in Gaussian bosonic networks.
format Preprint
id arxiv_https___arxiv_org_abs_2407_20477
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Photon counting statistics in Gaussian bosonic networks
Kansanen, Kalle S. U.
Portugal, Pedro
Flindt, Christian
Samuelsson, Peter
Mesoscale and Nanoscale Physics
Quantum Physics
The statistics of transmitted photons in microwave cavities play a foundational role in microwave quantum optics and its technological applications. By utilizing quantum mechanical phase-space methods, we here develop a general theory of the photon counting statistics in Gaussian bosonic networks consisting of driven cavities with beamsplitter interactions and two-mode-squeezing. The dynamics of the network can be captured by a Lyapunov equation for the covariance matrix of the cavity fields, which generalizes to a Riccati equation, when counting fields are included. By solving the Riccati equation, we obtain the statistics of emitted and absorbed photons as well as the time-dependent correlations encoded in waiting time distributions and second-order coherence functions. To illustrate our theoretical framework, we first apply it to a simple linear network consisting of two coupled cavities, for which we evaluate the photon cross-correlations and discuss connections between the photon emission statistics and the entanglement between the cavities. We then consider a bosonic circulator consisting of three coupled cavities, for which we investigate how a synthetic flux may affect the direction of the photon flow, similarly to recent experiments. Our general framework paves the way for systematic investigations of the photon counting statistics in Gaussian bosonic networks.
title Photon counting statistics in Gaussian bosonic networks
topic Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2407.20477