Spin-photon Qubits for Scalable Quantum Network
Md Sakibul Islam, Kuldeep Singh, Yunhe Zhao, Nitesh Singh, Wayesh Qarony
TL;DR
This paper reviews solid-state spin-photon qubits suitable for scalable quantum networks, emphasizing recent advances in materials, integration, and quantum networking demonstrations in the telecom band.
Contribution
It provides a comprehensive classification of solid-state spin-photon systems, discusses recent progress in cavity QED, and outlines the path toward chip-scale quantum photonic integrated circuits.
Findings
Demonstrations of quantum networking over metropolitan scales
Advances in cavity quantum electrodynamics for solid-state emitters
Progress toward integrated quantum photonic circuits
Abstract
Solid-state quantum light sources offer a scalable pathway for interfacing stationary spin qubits with flying photonic qubits, forming the backbone of future quantum networks. Telecom-band spin-photonic qubits, operating in the 1260-1675 nm wavelength range, are particularly well-suited for long-distance quantum communication due to minimal loss in standard optical fibers. Achieving scalability, however, hinges on fulfilling several stringent criteria: coherent spin-state control, deterministic and indistinguishable single-photon emission, and integration with nanophotonic structures that enhance radiative properties, such as lifetime, coherence, and photon indistinguishability. This study explores the state-of-the-art spin-photonic qubits across solid-state platforms, including diamond color centers, silicon carbide defect centers, quantum dots, and two-dimensional materials. Special…
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Taxonomy
TopicsDiamond and Carbon-based Materials Research · Quantum Information and Cryptography · Quantum and electron transport phenomena