Scalable Deterministic Integration of Two Quantum Dots into an On-Chip Quantum Circuit

被引:8
|
作者
Li, Shulun [1 ,2 ,3 ]
Yang, Yuhui [1 ]
Schall, Johannes [1 ]
von Helversen, Martin [1 ]
Palekar, Chirag [1 ]
Liu, Hanqing [2 ,3 ]
Roche, Leïo [1 ]
Rodt, Sven [1 ]
Ni, Haiqiao [2 ,3 ]
Zhang, Yu [2 ,3 ]
Niu, Zhichuan [2 ,3 ,4 ]
Reitzenstein, Stephan [1 ]
机构
[1] Tech Univ Berlin, Inst Festkorperphys, Hardenbergst 36, D-10623 Berlin, Germany
[2] Inst Semicond, Chinese Acad Sci, State Key Lab Superlattice & Microstruct, Beijing 100083, Peoples R China
[3] Univ Chinese Acad Sci, Ctr Mat Sci & Optoelect Engn, Beijing 100049, Peoples R China
[4] Inst Semicond, Chinese Acad Sci, Beijing 100083, Peoples R China
来源
ACS PHOTONICS | 2023年 / 10卷 / 08期
基金
中国国家自然科学基金;
关键词
quantum dots; photonic quantum circuits; waveguidesystem; deterministic integration; on-chip beamsplitter;
D O I
10.1021/acsphotonics.3c00547
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Integratedquantum photonic circuits (IQPCs) with deterministicallyintegrated quantum emitters are critical elements for scalable quantuminformation applications and have attracted significant attentionin recent years. However, scaling them up toward fully functionalphotonic circuits with multiple deterministically integrated quantumemitters to generate photonic input states remains a great challenge.In this work, we report on a monolithic prototype IQPC consistingof two preselected quantum dots deterministically integrated intonanobeam cavities at the input ports of a 2 x 2 multimode interferencebeam splitter. The on-chip beam splitter exhibits a splitting ratioof nearly 50/50 and the integrated quantum emitters have high single-photonpurity, enabling on-chip Hanbury Brown and Twiss (HBT) experiments,depicting deterministic scalability. Overall, this marks a cornerstonetoward scalable and fully functional IQPCs.
引用
收藏
页码:2846 / 2853
页数:8
相关论文
共 50 条
  • [31] On-Chip Quantum Optics with Quantum Dot Microcavities
    Stock, E.
    Albert, F.
    Hopfmann, C.
    Lermer, M.
    Schneider, C.
    Hoefling, S.
    Forchel, A.
    Kamp, M.
    Reitzenstein, S.
    [J]. ADVANCED MATERIALS, 2013, 25 (05) : 707 - 710
  • [32] Monolithically Integrated Microelectromechanical Systems for On-Chip Strain Engineering of Quantum Dots
    Zhang, Yang
    Chen, Yan
    Mietschke, Michael
    Zhang, Long
    Yuan, Feifei
    Abel, Stefan
    Huehne, Ruben
    Nielsch, Kornelius
    Fompeyrine, Jean
    Ding, Fei
    Schmidt, Oliver G.
    [J]. NANO LETTERS, 2016, 16 (09) : 5785 - 5791
  • [33] On-Chip Electrostatic Actuation of a Photonic Wire Antenna Embedding Quantum Dots
    Finazzer, Matteo
    Tanos, Rana
    Cure, Yoann
    Artioli, Alberto
    Kotal, Saptarshi
    Bleuse, Joel
    Genuist, Yann
    Gerard, Jean-Michel
    Donatini, Fabrice
    Claudon, Julien
    [J]. NANO LETTERS, 2023, 23 (06) : 2203 - 2209
  • [34] Plasmonic nanograting enhanced quantum dots excitation for cellular imaging on-chip
    Bhave, Gauri
    Lee, Youngkyu
    Chen, Peng
    Zhang, John X. J.
    [J]. NANOTECHNOLOGY, 2015, 26 (36)
  • [35] Deterministic Quantum Photonics with Ordered Systems of Quantum Wires and Quantum Dots
    Kapon, Eli
    [J]. 2012 14TH INTERNATIONAL CONFERENCE ON TRANSPARENT OPTICAL NETWORKS (ICTON 2012), 2012,
  • [36] Deterministic Placement of Quantum-Size Controlled Quantum Dots for Seamless Top-Down Integration
    Fischer, Arthur J.
    Anderson, P. Duke
    Koleske, Daniel D.
    Subramania, Ganapathi
    [J]. ACS PHOTONICS, 2017, 4 (09): : 2165 - 2170
  • [37] An on-chip quantum buffer: A key component for a photonic quantum computer on a chip
    [J]. 1600, Institute of Electronics Information Communication Engineers (97):
  • [38] Quantum Optical Networks Using a Single Mie Resonance of On-Chip Dielectric Light Manipulating Elements and their Scalable Integration with Quantum Dot Single Photon Sources
    Chattaraj, Swarnabha
    Zhang, Jiefei
    Lu, Siyuan
    Madhukar, Anupam
    [J]. 2018 IEEE PHOTONICS SOCIETY SUMMER TOPICAL MEETING SERIES (SUM), 2018, : 255 - 256
  • [39] On-Chip Quantum Communication Devices
    Trenti, Alessandro
    Achleitner, Martin
    Prawits, Florian
    Schrenk, Bernhard
    Conradi, Hauke
    Kleinert, Moritz
    Incoronato, Alfonso
    Zanetto, Francesco
    Zappa, Franco
    Di Luch, Ilaria
    Cirkinoglu, Ozan
    Leijtens, Xaveer
    Bonardi, Antonio
    Bruynsteen, Cedric
    Yin, Xin
    Kiessler, Christian
    Herrmann, Harald
    Silberhorn, Christine
    Bozzio, Mathieu
    Walther, Philip
    Thiel, Hannah C.
    Weihs, Gregor
    Huebel, Hannes
    [J]. JOURNAL OF LIGHTWAVE TECHNOLOGY, 2022, 40 (23) : 7485 - 7497
  • [40] On-chip deterministic operation of quantum dots in dual-mode waveguides for a plug-and-play single-photon source
    Ravitej Uppu
    Hans T. Eriksen
    Henri Thyrrestrup
    Aslı D. Uğurlu
    Ying Wang
    Sven Scholz
    Andreas D. Wieck
    Arne Ludwig
    Matthias C. Löbl
    Richard J. Warburton
    Peter Lodahl
    Leonardo Midolo
    [J]. Nature Communications, 11
12345