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Main Authors: Jain, Umang, Choi, Jae, Hull, Christopher, Marino, Alberto M.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.03755
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author Jain, Umang
Choi, Jae
Hull, Christopher
Marino, Alberto M.
author_facet Jain, Umang
Choi, Jae
Hull, Christopher
Marino, Alberto M.
contents Quantum correlated states of light, such as squeezed states, are a fundamental resource for the development of quantum technologies, as they are needed for applications in quantum metrology, quantum computation, and quantum communications. It is thus critical to develop compact, efficient, and robust sources to generate such states. Here we report on a compact, narrowband, fiber-coupled source of two-mode squeezed states of light at 795 nm based on four wave mixing (FWM) in a $^{85}$Rb atomic vapor. The source is designed in a small modular form factor, with two input fiber-coupled beams, the seed and pump beams required for the FWM, and two output fibers, one for each of the modes of the squeezed state. The system is optimized for low pump power (135 mW) to achieve a maximum intensity-difference squeezing of 4.4 dB after the output fibers at an analysis frequency of 1 MHz. The narrowband nature of the source makes it ideal for atomic-based quantum sensing and quantum networking configurations that rely on atomic quantum memories. Such a source paves the way for a versatile and portable platform for applications in quantum information science.
format Preprint
id arxiv_https___arxiv_org_abs_2507_03755
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Compact Fiber-Coupled Narrowband Two-Mode Squeezed Light Source
Jain, Umang
Choi, Jae
Hull, Christopher
Marino, Alberto M.
Quantum Physics
Atomic Physics
Quantum correlated states of light, such as squeezed states, are a fundamental resource for the development of quantum technologies, as they are needed for applications in quantum metrology, quantum computation, and quantum communications. It is thus critical to develop compact, efficient, and robust sources to generate such states. Here we report on a compact, narrowband, fiber-coupled source of two-mode squeezed states of light at 795 nm based on four wave mixing (FWM) in a $^{85}$Rb atomic vapor. The source is designed in a small modular form factor, with two input fiber-coupled beams, the seed and pump beams required for the FWM, and two output fibers, one for each of the modes of the squeezed state. The system is optimized for low pump power (135 mW) to achieve a maximum intensity-difference squeezing of 4.4 dB after the output fibers at an analysis frequency of 1 MHz. The narrowband nature of the source makes it ideal for atomic-based quantum sensing and quantum networking configurations that rely on atomic quantum memories. Such a source paves the way for a versatile and portable platform for applications in quantum information science.
title Compact Fiber-Coupled Narrowband Two-Mode Squeezed Light Source
topic Quantum Physics
Atomic Physics
url https://arxiv.org/abs/2507.03755