Go Fujii scite author profile

The most efficient modern optical communication is known as coherent communication, and its standard quantum limit is almost reachable with current technology. Though it has been predicted for a long time that this standard quantum limit could be overcome via quantum mechanically optimized receivers, such a performance has not been experimentally realized so far. Here we demonstrate the first unconditional evidence surpassing the standard quantum limit of coherent optical communication. We implement a quantum receiver with a simple linear optics configuration and achieve more than 90% of the total detection efficiency of the system. Such an efficient quantum receiver will provide a new way of extending the distance of amplification-free channels, as well as of realizing quantum information protocols based on coherent states and the loophole-free test of quantum mechanics.

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Non-Gaussian operation based on photon subtraction using a photon-number-resolving detector at a telecommunications wavelength

Namekata

Takahashi

Fujii

et al. 2010

Nature Photon

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Bright narrowband source of photon pairs at optical telecommunication wavelengths using a type-II periodically poled lithium niobate waveguide

et al. 2007

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We report on the generation of narrowband photon pairs at telecommunication wavelengths using a periodically poled lithium niobate waveguide that utilizes the nonlinear tensor element d(24) for type-II quasi phase matching. The FWHM bandwidth of the spontaneous parametric downconversion was 1 nm. The brightness of the photon pair source was ~6x10(5)/s/GHz when the pump power was 1 mW. The indistinguishability of the signal and idler photons generated by the degenerate spontaneous parametric downconversion process was studied in a Hong-Ou-Mandel type interference experiment.

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Photon number resolving detection with high speed and high quantum efficiency

et al. 2009

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Preservation of photon indistinguishability after transmission through surface-plasmon-polariton waveguide

et al. 2012

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We experimentally demonstrated preservation of indistinguishability between two photons via mode conversions, namely, photon-to-plasmon and plasmon-to-photon conversions. A two-photon interference experiment was carried out using a broadband photon pair generated through a spontaneous parametric downconversion process. We observed the so-called Hong-Ou-Mandel dip with an interferometer including a 1-mm-long surface-plasmon-polariton (SPP) waveguide. The photon indistinguishability of 92.4% was retained after propagation in the SPP waveguide.

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Thin Gold Covered Titanium Transition Edge Sensor for Optical Measurement

et al. 2012

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A thin-gold-film-covered titanium transition edge sensor is newly developed for highly reliable optical photon detection. The aim of the gold film is to prevent a formation of a surface oxidation layer (typically 2.8 nm) on titanium that causes severe degradation of the titanium superconductivity. Optical properties for the gold-covered titanium TES embedded in an optical cavity are calculated, and we find that the maximum absorptance and absorption bandwidth will be reduced with increasing a thickness of the gold film. However, more than 99% absorptance can be possible for the gold (10 nm in thickness) and titanium (30 nm) if 11 dielectric layers are used in an anti-reflection coating. A depth profile of a chemical state for the fabricated device was analysed by an X-ray photoelectron spectroscopy. The profile shows no evidence of TiO 2 existence in photoelectron spectrum. Superconducting critical temperature covered with the 10 nm gold were in the range of 200 mK to 320 mK depending on the titanium thickness of 18 nm to 26 nm.

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Fabrication of multi-layered absorption structure for high quantum efficiency photon detectors

Fujii¹,

Fukuda²,

Numata³

et al. 2009

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Mach-Zehnder interferometer using a long-range surface plasmon polariton waveguide coupler

Sakaidani

Fujii

Fujikake

et al. 2012

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Go Fujii

Quantum Receiver beyond the Standard Quantum Limit of Coherent Optical Communication

Non-Gaussian operation based on photon subtraction using a photon-number-resolving detector at a telecommunications wavelength

Bright narrowband source of photon pairs at optical telecommunication wavelengths using a type-II periodically poled lithium niobate waveguide

Photon number resolving detection with high speed and high quantum efficiency

Preservation of photon indistinguishability after transmission through surface-plasmon-polariton waveguide

Thin Gold Covered Titanium Transition Edge Sensor for Optical Measurement

Fabrication of multi-layered absorption structure for high quantum efficiency photon detectors

Mach-Zehnder interferometer using a long-range surface plasmon polariton waveguide coupler

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