A hybrid quantum photonic interface for solid state qubits

机译：固态量子比特的混合量子光子接口

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Optical nanocavities enable a strong interaction between single photons and single emitters. An appealing application is the construction of a quantum interface for photonic and solid state qubits. Since the material of the solid state qubit is often different from the nanocavity, there has been considerable interest in combining the two in a hybrid architecture. We describe our recent development of such a hybrid interface based a Gallium Phosphide photonic crystal nanocavity that is scanned and deterministically coupled to single emitters on a surface. The technique is used to couple the cavity to the nitrogen vacancy center in diamond, an emitter system with optically accessible electron spins and the ability to transfer electronic spin states to nuclear spins.

机译：光学纳米腔使单个光子和单个发射器之间实现强大的相互作用。一个吸引人的应用是构造用于光子和固态量子位的量子接口。由于固态量子比特的材料通常与纳米腔不同，因此在混合架构中将两者结合非常引起人们的兴趣。我们描述了这种基于磷化镓光子晶体纳米腔的混合界面的最新发展，该界面经过扫描并确定性地耦合到表面上的单个发射器。该技术用于将腔耦合到金刚石中的氮空位中心，该发射器系统具有光学可访问的电子自旋，并且能够将电子自旋态转换为核自旋。

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来源
《Laser resonators and beam control XIII》|2011年|p.79130O.1-79130O.4|共4页
会议地点 San Francisco CA(US)
作者
Dirk Englund; Luozhou Li; Jonathan Hodges; Brendan Shields; Kelley Rivoire; Fariba Hatami; Jelena Vuckovic; Hongkun Park; Mikhail Lukin;
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作者单位

Columbia University, New York, USA;

Columbia University, New York, USA;

Columbia University, New York, USA;

Harvard University, Cambridge, USA;

Stanford University, Stanford, USA;

Humboldt University, Berlin, Germany;

Stanford University, Stanford, USA;

Harvard University, Cambridge, USA;

Harvard University, Cambridge, USA;

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原文格式 PDF
正文语种 eng
中图分类激光技术、微波激射技术;
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专利

1. Proposal for a quantum interface between photonic and superconducting qubits [J] . Yuta Tsuchimoto, Patrick Knueppel, Aymeric Delteil, Physical review. B, Condensed Matter And Materals Physics . 2017,第16期

机译：关于光子和超导量子位之间的量子界面的建议
2. Proposal for a quantum interface between photonic and superconducting qubits [J] . Yuta Tsuchimoto, Patrick Knüppel, Aymeric Delteil, Physical review, B . 2017,第16期

机译：光子和超导Qubits之间量子接口的提案
3. Proposal for a quantum interface between photonic and superconducting qubits [J] . Yuta Tsuchimoto, Patrick Knueppel, Aymeric Delteil, Physical Review. B, Condensed Matter . 2017,第15a16CD期

机译：光子和超导Qubits之间量子接口的提案
4. A hybrid quantum photonic interface for solid state qubits [C] . Dirk Englund, Luozhou Li, Jonathan Hodges, SPIE Conference on Laser Resonators and Beam Control . 2011

机译：用于固态Qubits的混合量子光子界面
5. From Quantum Transport in Semiconducting Nanowires to Hybrid Semiconducting-Superconducting Qubits [D] . Zarassi, Azarin. 2020

机译：从半导体纳米线中的量子传输到杂交半导体超导Qubits
6. Controllably releasing long-lived quantum memory for photonic polarization qubit into multiple spatially-separate photonic channels [O] . Lirong Chen, Zhongxiao Xu, Weiqing Zeng, -1

机译：可控地将光子偏振量子位的长寿命量子存储器释放到多个空间分离的光子通道中
7. Quantum interface between photonic and superconducting qubits [O] . Tsuchimoto, Yuta, Knüppel, Patrick, Delteil, Aymeric, 2017

机译：光子和超导量子位之间的量子界面

A hybrid quantum photonic interface for solid state qubits

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