2022 Roadmap on integrated quantum photonics

被引：202

作者：

Moody, Galan ^{[1
]}

Sorger, Volker J. ^{[2
]}

Blumenthal, Daniel J. ^{[1
]}

Juodawlkis, Paul W. ^{[3
]}

Loh, William ^{[3
]}

Sorace-Agaskar, Cheryl ^{[3
]}

Jones, Alex E. ^{[4
]}

Balram, Krishna C. ^{[4
]}

Matthews, Jonathan C. F. ^{[4
]}

Laing, Anthony ^{[4
]}

Davanco, Marcelo ^{[5
]}

Chang, Lin ^{[1
]}

Bowers, John E. ^{[1
]}

Quack, Niels ^{[6
]}

Galland, Christophe ^{[6
]}

Aharonovich, Igor ^{[7
]}

Wolff, Martin A. ^{[8
]}

Schuck, Carsten ^{[8
]}

Sinclair, Neil ^{[9
]}

Loncar, Marko ^{[9
]}

Komljenovic, Tin ^{[10
]}

Weld, David ^{[1
]}

Mookherjea, Shayan ^{[11
]}

Buckley, Sonia ^{[5
]}

Radulaski, Marina ^{[12
]}

Reitzenstein, Stephan ^{[13
]}

Pingault, Benjamin ^{[9
,14
]}

Machielse, Bartholomeus ^{[9
]}

Mukhopadhyay, Debsuvra ^{[15
]}

Akimov, Alexey ^{[15
,16
,17
]}

Zheltikov, Aleksei ^{[16
,17
,18
]}

Agarwal, Girish S. ^{[15
]}

Srinivasan, Kartik ^{[5
]}

Lu, Juanjuan ^{[19
]}

Tang, Hong X. ^{[19
]}

Jiang, Wentao ^{[20
]}

McKenna, Timothy P. ^{[20
]}

Safavi-Naeini, Amir H. ^{[20
]}

Steinhauer, Stephan ^{[21
]}

Elshaari, Ali W. ^{[21
]}

Zwiller, Val ^{[21
]}

Davids, Paul S. ^{[22
]}

Martinez, Nicholas ^{[22
]}

Gehl, Michael ^{[22
]}

Chiaverini, John ^{[3
,23
]}

Mehta, Karan K. ^{[24
]}

Romero, Jacquiline ^{[25
,26
]}

Lingaraju, Navin B. ^{[27
,28
]}

Weiner, Andrew M. ^{[27
,28
]}

Peace, Daniel ^{[29
,30
]}

机构：

[1] Univ Calif Santa Barbara, Santa Barbara, CA 93106 USA

[2] George Washington Univ, Washington, DC USA

[3] MIT, Lincoln Lab, Lexington, MA 02421 USA

[4] Univ Bristol, QET Labs, Bristol, Avon, England

[5] NIST, Gaithersburg, MD 20899 USA

[6] Ecole Polytech Fed Lausanne, Lausanne, Switzerland

[7] Univ Technol Sydney, Sydney, NSW, Australia

[8] Univ Munster, Inst Phys, D-48149 Munster, Germany

[9] Harvard Univ, John A Paulson Sch Engn & Appl Sci, Cambridge, MA 02138 USA

[10] Nexus Photon, Goleta, CA 93117 USA

[11] Univ Calif San Diego, La Jolla, CA 92093 USA

[12] Univ Calif Davis, Davis, CA 95616 USA

[13] Tech Univ Berlin, Berlin, Germany

[14] Delft Univ Technol, QuTech, Delft, Netherlands

[15] Texas A&M Univ, College Stn, TX 77840 USA

[16] PN Lebedev Phys Inst, Moscow 119991, Russia

[17] Russian Quantum Ctr, Skolkovo 143025, Moscow Region, Russia

[18] Moscow MV Lomonosov State Univ, Moscow 119992, Russia

[19] Yale Univ, Dept Elect Engn, New Haven, CT 06511 USA

[20] Stanford Univ, Dept Appl Phys, Ginzton Lab, Stanford, CA 94305 USA

[21] KTH Royal Inst Technol, Stockholm, Sweden

[22] Sandia Natl Labs, POB 5800, Albuquerque, NM 87185 USA

[23] MIT, 77 Massachusetts Ave, Cambridge, MA 02139 USA

[24] Swiss Fed Inst Technol, Dept Phys, Inst Quantum Elect, Zurich, Switzerland

[25] Australian Res Council Ctr Excellence Engn Quantu, Canberra, ACT, Australia

[26] Univ Queensland, Sch Math & Phys, Brisbane, Qld 4072, Australia

[27] Purdue Univ, Sch Elect & Comp Engn, W Lafayette, IN 47907 USA

[28] Purdue Univ, Purdue Quantum Sci & Engn Inst, W Lafayette, IN 47907 USA

[29] Griffith Univ, Ctr Quantum Computat & Commun Technol, Brisbane, Qld 4111, Australia

[30] Griffith Univ, Ctr Quantum Dynam, Brisbane, Qld 4111, Australia

[31] Sorbonne Univ, CNRS, Paris, France

[32] Brigham Young Univ, Provo, UT 84602 USA

来源：

JOURNAL OF PHYSICS-PHOTONICS | 2022年 / 4卷 / 01期

基金：

美国国家科学基金会;

关键词：

quantum photonics; integrated photonics; quantum information; quantum computing; quantum sensing; quantum communications; 2ND-HARMONIC GENERATION; SILICON-NITRIDE; WAVE-GUIDES; FREQUENCY-CONVERSION; MATERIAL PLATFORMS; BRILLOUIN LASER; STATE; ENTANGLEMENT; EFFICIENT; OPERATION;

D O I：

10.1088/2515-7647/ac1ef4

中图分类号：

O43 [光学];

学科分类号：

070207 ; 0803 ;

摘要：

Integrated photonics will play a key role in quantum systems as they grow from few-qubit prototypes to tens of thousands of qubits. The underlying optical quantum technologies can only be realized through the integration of these components onto quantum photonic integrated circuits (QPICs) with accompanying electronics. In the last decade, remarkable advances in quantum photonic integration have enabled table-top experiments to be scaled down to prototype chips with improvements in efficiency, robustness, and key performance metrics. These advances have enabled integrated quantum photonic technologies combining up to 650 optical and electrical components onto a single chip that are capable of programmable quantum information processing, chip-to-chip networking, hybrid quantum system integration, and high-speed communications. In this roadmap article, we highlight the status, current and future challenges, and emerging technologies in several key research areas in integrated quantum photonics, including photonic platforms, quantum and classical light sources, quantum frequency conversion, integrated detectors, and applications in computing, communications, and sensing. With advances in materials, photonic design architectures, fabrication and integration processes, packaging, and testing and benchmarking, in the next decade we can expect a transition from single- and few-function prototypes to large-scale integration of multi-functional and reconfigurable devices that will have a transformative impact on quantum information science and engineering.

引用

页数：85

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