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Main Authors: Ngan, Kinfung, Sun, Shuo
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.09976
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author Ngan, Kinfung
Sun, Shuo
author_facet Ngan, Kinfung
Sun, Shuo
contents Solid-state quantum emitters, such as quantum dots, color centers, rare-earth dopants, and organic molecules, offer qubit systems that integrate well with chip-scale photonic and electronic devices. To fully harness their potential for quantum applications requires the generation of entanglement between two remote qubits with high fidelity and efficiency. In this article, we compare the performance of three common photon-mediated entanglement schemes under realistic noise for solid-state quantum emitters, including optical dephasing and spectral diffusion. We identify the optimal scheme across different noise regimes and calculate the measurement parameters needed to achieve the highest entanglement fidelity at a given rate. Additionally, we explore the effects of temporal and spectral filtering in enhancing entanglement fidelity. Our findings provide practical guidelines for selecting optimal entanglement schemes and outline the measurement strategies for achieving better entanglement fidelity.
format Preprint
id arxiv_https___arxiv_org_abs_2412_09976
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Performance analysis of different photon-mediated entanglement generation schemes under optical dephasing and spectral diffusion
Ngan, Kinfung
Sun, Shuo
Quantum Physics
Solid-state quantum emitters, such as quantum dots, color centers, rare-earth dopants, and organic molecules, offer qubit systems that integrate well with chip-scale photonic and electronic devices. To fully harness their potential for quantum applications requires the generation of entanglement between two remote qubits with high fidelity and efficiency. In this article, we compare the performance of three common photon-mediated entanglement schemes under realistic noise for solid-state quantum emitters, including optical dephasing and spectral diffusion. We identify the optimal scheme across different noise regimes and calculate the measurement parameters needed to achieve the highest entanglement fidelity at a given rate. Additionally, we explore the effects of temporal and spectral filtering in enhancing entanglement fidelity. Our findings provide practical guidelines for selecting optimal entanglement schemes and outline the measurement strategies for achieving better entanglement fidelity.
title Performance analysis of different photon-mediated entanglement generation schemes under optical dephasing and spectral diffusion
topic Quantum Physics
url https://arxiv.org/abs/2412.09976