Ziqing Wang scite author profile

Ziqing Wang

5Publications

72Citation Statements Received

172Citation Statements Given

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263

172

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UNSW Sydney

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Inter-Satellite Quantum Key Distribution at Terahertz Frequencies

Wang

Malaney

Green

2019

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Terahertz (THz) communication is a topic of much research in the context of high-capacity next-generation wireless networks. Quantum communication is also a topic of intensive research, most recently in the context of space-based deployments. In this work we explore the use of THz frequencies as a means to achieve quantum communication within a constellation of micro-satellites in Low-Earth-Orbit (LEO). Quantum communication between the micro-satellite constellation and high-altitude terrestrial stations is also investigated. Our work demonstrates that THz quantum entanglement distribution and THz quantum key distribution are viable deployment options in the microsatellite context. We discuss how such deployment opens up the possibility for simpler integration of global quantum and wireless networks. The possibility of using THz frequencies for quantumradar applications in the context of LEO deployments is briefly discussed.

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Satellite-To-Earth Quantum Key Distribution via Orbital Angular Momentum

2020

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Temporal Modes of Light in Satellite-to-Earth Quantum Communications

2022

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Enhanced Uplink Quantum Communication With Satellites via Downlink Channels

Villaseñor

Wang

et al. 2021

IEEE Trans. Quantum Eng.

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In developing the global Quantum Internet, quantum communication with low-Earth-orbit satellites will play a pivotal role. Such communication will need to be two way: effective not only in the satellite-to-ground (downlink) channel but also in the ground-to-satellite channel (uplink). Given that losses on this latter channel are significantly larger relative to the former, techniques that can exploit the superior downlink to enhance quantum communication in the uplink should be explored. In this work we do just that -explore how continuous variable entanglement in the form of two-mode squeezed vacuum (TMSV) states can be used to significantly enhance the fidelity of ground-to-satellite quantum-state transfer relative to direct uplink-transfer. More specifically, through detailed phase-screen simulations of beam evolution through turbulent atmospheres in both the downlink and uplink channels, we demonstrate how a TMSV teleportation channel, created by the satellite, can be used to dramatically improve the fidelity of uplink coherent-state transfer relative to direct transfer. We then show how this, in turn, leads to the uplink-transmission of a higher alphabet of coherent states. Additionally, we show how non-Gaussian operations, acting on the received component of the TMSV state at the ground station, can lead to even further enhancement. Since TMSV states can readily be produced in situ on a satellite platform and form a reliable teleportation channel for most quantum states, our work suggests that future satellites forming part of the emerging Quantum Internet should be designed with uplink-communication via TMSV teleportation in mind.

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Satellite-Based Entanglement Distribution using Orbital Angular Momentum of Light

Wang

Malaney

Green

2020

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Ziqing Wang

Inter-Satellite Quantum Key Distribution at Terahertz Frequencies

Satellite-To-Earth Quantum Key Distribution via Orbital Angular Momentum

Temporal Modes of Light in Satellite-to-Earth Quantum Communications

Enhanced Uplink Quantum Communication With Satellites via Downlink Channels

Satellite-Based Entanglement Distribution using Orbital Angular Momentum of Light

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