Independently programmable frequency-multiplexed phase-sensitive optical parametric amplification in the optical telecommunication band

Akihito Omi; Aruto Hosaka; Masaya Tomita; Yuta Yamagishi; Kentaro Wakui; Shintaro Niimura; Kazuki Takahashi; Masahiro Takeoka; Fumihiko Kannari

doi:10.1364/OE.430133

Independently programmable frequency-multiplexed phase-sensitive optical parametric amplification in the optical telecommunication band

Akihito Omi, Aruto Hosaka, Masaya Tomita, Yuta Yamagishi, Kentaro Wakui, Shintaro Niimura, Kazuki Takahashi, Masahiro Takeoka, Fumihiko Kannari

Department of Electronics and Electrical Engineering

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

2 Citations (Scopus)

Abstract

We experimentally demonstrate programmable multimode phase-sensitive amplification multiplexed in the frequency domain for flexible control of parallelly generated squeezed states. We utilize the unique phase-matching condition of a type-II periodically poled potassium titanyl phosphate (PPKTP) crystal and pulse shaping technique to fully control the frequency-domain parallel generation of squeezed states in the optical telecommunication band. We experimentally verify that the independent programmability of phase-sensitive optical parametric amplification (OPA) for the modes corresponding to different frequency bands can be achieved by shaping the pump laser pulse from optical parametric gain measurements using a coherent probe light generated by a degenerate synchronously pumped optical parametric oscillator.

Original language	English
Pages (from-to)	21683-21697
Number of pages	15
Journal	Optics Express
Volume	29
Issue number	14
DOIs	https://doi.org/10.1364/OE.430133
Publication status	Published - 2021 Jul 5

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1364/OE.430133

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title = "Independently programmable frequency-multiplexed phase-sensitive optical parametric amplification in the optical telecommunication band",

abstract = "We experimentally demonstrate programmable multimode phase-sensitive amplification multiplexed in the frequency domain for flexible control of parallelly generated squeezed states. We utilize the unique phase-matching condition of a type-II periodically poled potassium titanyl phosphate (PPKTP) crystal and pulse shaping technique to fully control the frequency-domain parallel generation of squeezed states in the optical telecommunication band. We experimentally verify that the independent programmability of phase-sensitive optical parametric amplification (OPA) for the modes corresponding to different frequency bands can be achieved by shaping the pump laser pulse from optical parametric gain measurements using a coherent probe light generated by a degenerate synchronously pumped optical parametric oscillator.",

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AU - Omi, Akihito

AU - Hosaka, Aruto

AU - Tomita, Masaya

AU - Yamagishi, Yuta

AU - Wakui, Kentaro

AU - Niimura, Shintaro

AU - Takahashi, Kazuki

AU - Takeoka, Masahiro

AU - Kannari, Fumihiko

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AB - We experimentally demonstrate programmable multimode phase-sensitive amplification multiplexed in the frequency domain for flexible control of parallelly generated squeezed states. We utilize the unique phase-matching condition of a type-II periodically poled potassium titanyl phosphate (PPKTP) crystal and pulse shaping technique to fully control the frequency-domain parallel generation of squeezed states in the optical telecommunication band. We experimentally verify that the independent programmability of phase-sensitive optical parametric amplification (OPA) for the modes corresponding to different frequency bands can be achieved by shaping the pump laser pulse from optical parametric gain measurements using a coherent probe light generated by a degenerate synchronously pumped optical parametric oscillator.

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Independently programmable frequency-multiplexed phase-sensitive optical parametric amplification in the optical telecommunication band

Abstract

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