RSS icon
Twitter icon
Facebook icon
Vimeo icon
YouTube icon

Many-body decoherence dynamics and optimized operation of a single-photon switch

TitleMany-body decoherence dynamics and optimized operation of a single-photon switch
Publication TypeJournal Article
Year of Publication2016
AuthorsC.. R. Murray, A. V. Gorshkov, and T.. Pohl
JournalNEW JOURNAL OF PHYSICS
Volume18
Pagination092001
Date PublishedSEP 13
ISSN1367-2630
Abstract

Wedevelop a theoretical framework to characterize the decoherence dynamics due to multi-photon scattering in an all-optical switch based on Rydberg atom induced nonlinearities. By incorporating the knowledge of this decoherence process into optimal photon storage and retrieval strategies, we establish optimized switching protocols for experimentally relevant conditions, and evaluate the corresponding limits in the achievable fidelities. Based on these results we work out a simplified description that reproduces recent experiments (Nat. Commun. 7 12480) and provides a new interpretation in terms of many-body decoherence involving multiple incident photons and multiple gate excitations forming the switch. Aside from offering insights into the operational capacity of realistic photon switching capabilities, our work provides a complete description of spin wave decoherence in a Rydberg quantum optics setting, and has immediate relevance to a number of further applications employing photon storage in Rydberg media.

DOI10.1088/1367-2630/18/9/092001

Subscribe to A Quantum Bit 

Quantum physics began with revolutionary discoveries in the early twentieth century and continues to be central in today’s physics research. Learn about quantum physics, bit by bit. From definitions to the latest research, this is your portal. Subscribe to receive regular emails from the quantum world. Previous Issues...

Sign Up Now

Sign up to receive A Quantum Bit in your email!

 Have an idea for A Quantum Bit? Submit your suggestions to jqi-comm@umd.edu