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All-optical phase-sensitive detection for ultra-fast quantum computation

Naoto Takanashi, Asuka Inoue, Takahiro Kashiwazaki, Takushi Kazama, Koji Enbutsu, Ryoichi Kasahara, Takeshi Umeki, Akira Furusawa

2020Optics Express52 citationsDOIOpen Access PDF

Abstract

Phase-sensitive detection is the essential projective measurement for measurement-based continuous-variable quantum information processing. The bandwidth of conventional electrical phase-sensitive detectors is up to several gigahertz, which would limit the speed of quantum computation. It is theoretically proposed to realize terahertz-order detection bandwidth by using all-optical phase-sensitive detection with an optical parametric amplifier (OPA). However, there have been experimental obstacles to achieve large parametric gain for continuous waves, which is required for use in quantum computation. Here, we adopt a fiber-coupled χ (2) OPA made of a periodically poled LiNbO 3 waveguide with high durability for intense continuous-wave pump light. Thanks to that, we manage to detect quadrature amplitudes of broadband continuous-wave squeezed light. 3 dB of squeezing is measured up to 3 THz of sideband frequency with an optical spectrum analyzer. Furthermore, we demonstrate the phase-locking and dispersion compensation of the broadband continuous-wave squeezed light, so that the phase of the squeezed light is maintained over 1 THz. The ultra-broadband continuous-wave detection method and dispersion compensation would help to realize all-optical quantum computation with over-THz clock frequency.

Topics & Concepts

PhysicsSqueezed coherent stateOpticsBandwidth (computing)BroadbandSidebandDetectorQuantum limitOptical amplifierSpontaneous parametric down-conversionQuantum informationOptical phase spaceQuantum opticsPhotonicsQuantum noiseQuantumQuantum amplifierAmplifierOptical parametric amplifierQuantum metrologyQuantum computerComputationPhase detectorElectronic engineeringQuantum channelComputer scienceParametric statisticsQuantum imagingDispersion (optics)Quantum information sciencePhase modulationCompensation (psychology)Quadrature (astronomy)Homodyne detectionOptoelectronicsFour-wave mixingQuantum networkQuantum sensorAmplitudeQuantum Information and CryptographyNeural Networks and Reservoir ComputingMechanical and Optical Resonators