Meizhen Ren scite author profile

Meizhen Ren

3Publications

23Citation Statements Received

12Citation Statements Given

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Affiliations

Beijing Academy of Quantum Information Sciences, Institute of Semiconductors, Chinese Academy of Sciences

Publications

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Interference at the single-photon level based on silica photonics robust against channel disturbance

Xiao¹,

Ren²,

Zhang³

et al. 2021

Photon. Res.

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Quantum key distribution (QKD) provides a solution for communication of unconditional security. However, the quantum channel disturbance in the field severely increases the quantum bit-error rate, degrading the performance of a QKD system. Here we present a setup comprising silica planar light wave circuits (PLCs), which is robust against the channel polarization disturbance. Our PLCs are based on the asymmetric Mach–Zehnder interferometer (AMZI), integrated with a tunable power splitter and thermo-optic phase modulators. The polarization characteristics of the AMZI PLC are investigated by a novel pulse self-interfering method to determine the operation temperature of implementing polarization insensitivity. Over a 20 km fiber channel with 30 Hz polarization scrambling, our time-bin phase-encoding QKD setup is characterized with an interference fringe visibility of 98.72%. The extinction ratio for the phase states is kept between 18 and 21 dB for 6 h without active phase correction.

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Low power consumption 4-channel variable optical attenuator array based on planar lightwave circuit technique

Ren¹,

Zhang²,

J³

et al. 2017

Chinese Phys. B

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The power consumption of a variable optical attenuator (VOA) array based on a silica planar lightwave circuit was investigated. The thermal field profile of the device was optimized using the finite-element analysis. The simulation results showed that the power consumption reduces as the depth of the heat-insulating grooves is deeper, the up-cladding is thinner, the down-cladding is thicker, and the width of the cladding ridge is narrower. The materials component and thickness of the electrodes were also optimized to guarantee the driving voltage under 5 V. The power consumption was successfully reduced to as low as 155 mW at an attenuation of 30 dB in the experiment.

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Single-photon interference using silica-based AMZI with phase modulation

Ren

Xiao

Zhang

et al. 2020

Optics & Laser Technology

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Meizhen Ren

Interference at the single-photon level based on silica photonics robust against channel disturbance

Low power consumption 4-channel variable optical attenuator array based on planar lightwave circuit technique

Single-photon interference using silica-based AMZI with phase modulation

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