Optical spin tomography in a telecom C-band quantum dot

• URL: http://arxiv.org/abs/2512.20870v1
• Date: Wed, 24 Dec 2025 01:11:34 GMT
• Title: Optical spin tomography in a telecom C-band quantum dot
• Authors: Junyang Huang, Ginny Shooter, Petros Laccotripes, Andrea Barbiero, David A. Ritchie, Andrew J. Shields, Tina Müller, R. Mark Stevenson,
• Abstract summary: Quantum dots emitting at telecom wavelengths present a promising spin-photon platform.<n>We benchmark the electron and hole g-factors and coherence properties of a droplet epitaxy QD.<n>We then perform full state tomography of the confined hole ground state to reveal subtle anisotropies in the spin precession.
• Score: 0.042159389323887214
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: A central challenge for scalable quantum networks is the realization of coherent interfaces between stationary qubits and telecom-band photonic qubits for long-distance entanglement distribution. Semiconductor quantum dots emitting at telecom wavelengths present a promising spin-photon platform, and a precise understanding of the properties of the confined spin is crucial for optimizing its interplay with the photonic qubit. Here, we simultaneously benchmark the electron and hole g-factors and coherence properties of a droplet epitaxy QD, solely from time and polarization resolved photon correlations. These measurements identify the hole as the preferable qubit for spin-photon entanglement in quantum network nodes. We then perform full state tomography of the confined hole ground state to reveal subtle anisotropies in the spin precession, providing essential diagnostics for minimizing phase errors critical for deterministic multiphoton entanglement generation.

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