Low-loss polarization control in fiber systems for quantum computation

Nakamura, Toshio; Nomura, Takefumi; Endo, Mitsuru; Ruofan, He; Kashiwazaki, Takahiro; Umeki, Takeshi; Yoshikawa, Junichi; Furusawa, Akira

doi:10.1364/oe.489082

Opt. Express

2023

DOI: 10.1364/oe.489082

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Low-loss polarization control in fiber systems for quantum computation

Toshio Nakamura¹,

Takefumi Nomura²,

Mitsuru Endo

et al.

Abstract: Optical quantum information processing requires low loss interference of quantum light. Also, when the interferometer is composed of optical fibers, degradation of interference visibility due to the finite polarization extinction ratio becomes a problem. Here we propose a low loss method to optimize interference visibility by controlling the polarizations to a crosspoint of two circular trajectories on the Poincaré sphere. Our method maximizes visibility with low optical loss by using fiber stretchers as polar… Show more

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2024

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Long-term stability of squeezed light in a fiber-based system using automated alignment

Nakamura,

Nomura,

Endo

et al. 2024

Review of Scientific Instruments

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Providing a cloud service for optical quantum computing requires stabilizing the optical system for extended periods. It is advantageous to construct a fiber-based system, which does not require spatial alignment. However, fiber-based systems are instead subject to fiber-specific instabilities. For instance, there are phase drifts due to ambient temperature changes and external disturbances and polarization fluctuations due to the finite polarization extinction ratio of fiber components. Here, we report the success of measuring squeezed light with a fiber system for 24 h. To do this, we introduce stabilization mechanics to suppress fluctuations in the fiber system and an integrated controller to automatically align the entire system. The squeezed light at a wavelength of 1545.3 nm is measured every 2 min, where automated alignments are inserted every 30 min. The squeezing levels with an average of −4.42 dB are recorded with an extremely small standard deviation of 0.08 dB over 24 h. With the technologies developed here, we can build complicated optical setups with the fiber-based system and operate them automatically for extended periods, which is promising for cloud service of quantum computation.

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Long-term stability of squeezed light in a fiber-based system using automated alignment

Nakamura,

Nomura,

Endo

et al. 2024

Review of Scientific Instruments

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show abstract

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Low-loss polarization control in fiber systems for quantum computation

Cited by 1 publication

References 22 publications

Long-term stability of squeezed light in a fiber-based system using automated alignment

Long-term stability of squeezed light in a fiber-based system using automated alignment

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