Spin-photon entanglement from a solid-state system at telecom wavelengths

被引:0
作者
Laccotripes, P. [1 ,2 ]
Mueller, T. [2 ]
Stevenson, R. M. [2 ]
Skiba-Szymanska, J. [2 ]
Ritchie, D. A. [1 ]
Shields, A. J. [2 ]
机构
[1] Univ Cambridge, Cavendish Lab, JJ Thomson Ave, Cambridge CB3 0HE, England
[2] Toshiba Europe Ltd, 208 Sci Pk,Milton Rd, Cambridge CB4 0GZ, England
来源
QUANTUM COMPUTING, COMMUNICATION, AND SIMULATION IV | 2024年 / 12911卷
基金
英国工程与自然科学研究理事会;
关键词
spin control; spin-photon entanglement; telecom; C-band; quantum dots; single photon source; QUANTUM-DOT SPIN;
D O I
10.1117/12.3000965
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Efficient generation of entanglement between a stationary matter-qubit and a propagating photonic-qubit is a scientific and technological challenge of utmost importance for the realisation of fully-fledged quantum networks. Solid-state quantum emitters in the telecom C-band are a promising platform due to the minimal absorption of photons at these wavelengths and deterministic generation of high purity single photon flying qubits. Here, we use an InAs/InP quantum dot to implement an optically active spin-qubit and demonstrate high fidelity spin initialisation and coherent spin control of the resident electron. Lastly, for the first time we demonstrate high-fidelity spin-photon entanglement in a solid-state system with direct emission into the telecom C-band and obtain a lower bound on the entanglement fidelity of 80.07 %.
引用
收藏
页数:5
相关论文
共 11 条
[1]   Entangling a Hole Spin with a Time-Bin Photon: A Waveguide Approach for Quantum Dot Sources of Multiphoton Entanglement [J].
Appel, Martin Hayhurst ;
Tiranov, Alexey ;
Pabst, Simon ;
Chan, Ming Lai ;
Starup, Christian ;
Wang, Ying ;
Midolo, Leonardo ;
Tiurev, Konstantin ;
Scholz, Sven ;
Wieck, Andreas D. ;
Ludwig, Arne ;
Sorensen, Anders Sondberg ;
Lodahl, Peter .
PHYSICAL REVIEW LETTERS, 2022, 128 (23)
[2]   Deterministic generation of indistinguishable photons in a cluster state [J].
Cogan, Dan ;
Su, Zu-En ;
Kenneth, Oded ;
Gershoni, David .
NATURE PHOTONICS, 2023, 17 (04) :324-+
[3]   High-rate entanglement between a semiconductor spin and indistinguishable photons [J].
Coste, N. ;
Fioretto, D. A. ;
Belabas, N. ;
Wein, S. C. ;
Hilaire, P. ;
Frantzeskakis, R. ;
Gundin, M. ;
Goes, B. ;
Somaschi, N. ;
Morassi, M. ;
Lemaitre, A. ;
Sagnes, I. ;
Harouri, A. ;
Economou, S. E. ;
Auffeves, A. ;
Krebs, O. ;
Lanco, L. ;
Senellart, P. .
NATURE PHOTONICS, 2023, 17 (07) :582-+
[4]   Optical charge injection and coherent control of a quantum-dot spin-qubit emitting at telecom wavelengths [J].
Dusanowski, Lukasz ;
Nawrath, Cornelius ;
Portalupi, Simone L. ;
Jetter, Michael ;
Huber, Tobias ;
Klembt, Sebastian ;
Michler, Peter ;
Hoefling, Sven .
NATURE COMMUNICATIONS, 2022, 13 (01)
[5]   Quantum key distribution with an entangled light emitting diode [J].
Dzurnak, B. ;
Stevenson, R. M. ;
Nilsson, J. ;
Dynes, J. F. ;
Yuan, Z. L. ;
Skiba-Szymanska, J. ;
Farrer, I. ;
Ritchie, D. A. ;
Shields, A. J. .
APPLIED PHYSICS LETTERS, 2015, 107 (26)
[6]   Observation of entanglement between a quantum dot spin and a single photon [J].
Gao, W. B. ;
Fallahi, P. ;
Togan, E. ;
Miguel-Sanchez, J. ;
Imamoglu, A. .
NATURE, 2012, 491 (7424) :426-430
[7]   A scheme for efficient quantum computation with linear optics [J].
Knill, E ;
Laflamme, R ;
Milburn, GJ .
NATURE, 2001, 409 (6816) :46-52
[8]  
Laccotripes P, 2023, Arxiv, DOI arXiv:2310.16930
[9]   Complete quantum control of a single quantum dot spin using ultrafast optical pulses [J].
Press, David ;
Ladd, Thaddeus D. ;
Zhang, Bingyang ;
Yamamoto, Yoshihisa .
NATURE, 2008, 456 (7219) :218-221
[10]   Quantum internet: A vision for the road ahead [J].
Wehner, Stephanie ;
Elkouss, David ;
Hanson, Ronald .
SCIENCE, 2018, 362 (6412)
12