Towards a Realistic Model for Cavity-Enhanced Atomic Frequency Comb Quantum Memories

Taherizadegan, Shahrzad; Davidson, J.H.; Kumar, Sourabh; Oblak, D.; Simon, Christoph

Towards a Realistic Model for Cavity-Enhanced Atomic Frequency Comb Quantum Memories

Conference paper (2024)

Authors

Shahrzad Taherizadegan University of Calgary

J.H. Davidson QuTech Advanced Research Centre, National Institute of Standards and Technology, QID/Tittel Lab, Kavli institute of nanoscience Delft

Sourabh Kumar University of Calgary

D. Oblak University of Calgary

Christoph Simon University of Calgary

Research Group

QID/Tittel Lab

Optics Quantum networks Quantum communication Quantum memory

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http://resolver.tudelft.nl/uuid:30e400ee-e0d6-417e-84f9-458658f1eccb

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Published Date

2024

Language

English

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Research Group

QID/Tittel Lab

Abstract

We develop a theoretical model for cavity-enhanced atomic frequency comb (AFC) quantum memory that includes the effects of dispersion and show a close alignment of the model with our own experimental results. Our model is a step forward to accurately estimating the created comb properties, such as the optical depth inside the cavity, and so being able to make precise predictions of the performance of the prepared cavity-enhanced AFC quantum memory.

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