Logo Zephyrnet

Generative Data oye

Pupọ

Awọn ipinlẹ iṣupọ onidiwọn pupọ ni lilo wiwo-fọto alayipo ẹyọkan ti a so pọ ni agbara si iforukọsilẹ inu iparun

Ti tẹjade nipasẹ Plato
Ti tẹjade nipasẹ Plato

ọjọ:

wiwo: 802

Cathryn P. Michaels, Jesús Arjona Martínez, Romain Debroux, Ryan A. Parker, Alexander M. Stramma, Luca I. Huber, Carola M. Purser, Mete Atatüre, ati Dorian A. Gangloff

Cavendish yàrá, University of Cambridge, JJ Thomson Avenue, Cambridge, CB3 0HE, UK

Wa iwe yii ti o nifẹ tabi fẹ lati jiroro? Lootọ tabi fi asọye silẹ lori SciRate.

áljẹbrà

Awọn ipinlẹ iṣupọ Photonic jẹ orisun ti o lagbara fun wiwọn orisun kuatomu iṣiro ati ibaraẹnisọrọ kuatomu ifarada pipadanu. Awọn igbero lati ṣe ipilẹṣẹ awọn ipinlẹ iṣupọ onisẹpo onisẹpo ti ṣe idanimọ awọn atọkun-fọto alayipo, awọn ọna ṣiṣe spin-acilla, ati awọn ọna ṣiṣe esi oju bi awọn ero ti o pọju. Ni atẹle iwọnyi, a ṣeduro iran ti awọn ipinlẹ iṣupọ onisẹpo pupọ nipa lilo ẹyọkan, wiwo-fọto alayipo ti o munadoko pọ pẹlu agbara si iforukọsilẹ iparun kan. Eto wa ṣe lilo ibaraenisepo hyperfine olubasọrọ lati jẹ ki awọn ẹnu-ọna kuatomu agbaye ṣiṣẹ laarin iyipo wiwo ati iforukọsilẹ iparun agbegbe kan ati pe o fa idawọle abajade si awọn photons nipasẹ wiwo alayipo-photon. Laarin ọpọlọpọ awọn emitters kuatomu, a ṣe idanimọ ile-iṣẹ aaye silikoni-29 ni diamond, papọ si eto nanophotonic, bi nini apapo ọtun ti didara opiti ati isọdọkan iyipo fun ero yii. A fihan ni nọmba pe lilo eto yii ipo iṣupọ iwọn 2 × 5 pẹlu iṣotitọ-isalẹ ti 0.5 ati iwọn atunwi ti 65 kHz jẹ aṣeyọri labẹ awọn iṣe adaṣe adaṣe lọwọlọwọ ati pẹlu imọ-ẹrọ to ṣeeṣe. Awọn ilọsiwaju ẹnu-ọna ojulowo fi awọn ipinlẹ iṣupọ fọto 100 laarin arọwọto esiperimenta.

Gbajumo Lakotan

Awọn ipinlẹ kuatomu ti o ni ọpọlọpọ awọn photon ti a fi sinu ara jẹ orisun bọtini ni awọn nẹtiwọọki iširo kuatomu, mejeeji fun ibaraẹnisọrọ to lagbara ati fun imuse awọn iṣẹ ṣiṣe iṣiro. Awọn ipinlẹ iṣupọ Photonic ti isunmọ rẹ jẹ onidiwọn pupọ ni a nilo fun awọn ilana kuatomu agbaye. Iru awọn ipinlẹ iṣupọ le ṣee gba lati orisun fọto kan ti o munadoko ti o ga julọ, papọ pẹlu awọn ẹnu-ọna didimu laarin awọn emitters ọtọtọ tabi laarin awọn iyipo agbegbe. A daba lati lo isọdi onisẹpo pupọ nipa ti ara ti o wa si ile-iṣẹ awọ diamond kan ṣoṣo ti o ni agbara pọ si iyipo iparun ojulowo lati ṣẹda awọn ipinlẹ iṣupọ onisẹpo pupọ ti awọn photons. Awọn iṣeṣiro wa fihan pe awọn ipinlẹ iṣupọ fọto 100 jẹ eyiti o ṣee ṣe laarin awọn aye idanwo aṣeyọri.

Data Data BibTeX

Awọn itọkasi

[1] A. Aspect, P. Grangier, G. Roger, Awọn Idanwo Idanwo ti Awọn Imọran Agbegbe Iṣotitọ nipasẹ Bell's Theorem, Phys. Alufa Lett. 47 (7) (1981) 460-463. doi: 10.1103 / PhysRevLett.47.460.
https: / / doi.org/ 10.1103 / PhysRevLett.47.460

[2] AK Ekert, kuatomu cryptography da lori ilana Bell, Phys. Alufa Lett. 67 (6) (1991) 661-663. doi: 10.1103 / PhysRevLett.67.661.
https: / / doi.org/ 10.1103 / PhysRevLett.67.661

[3] D. Bouwmeester, J.-W. Pan, K. Mattle, M. Eibl, H. Weinfurter, A. Zeilinger, Experimental kuatomu teleportation, Iseda 390 (6660) (1997) 575-579. doi:10.1038/37539.
https: / / doi.org/ 10.1038 / 37539

[4] R. Raussendorf, HJ Briegel, A Ọkan-Ọna kuatomu Computer, Phys. Alufa Lett. 86 (22) (2001) 5188-5191. doi:10.1103/physrevlett.86.5188.
https://doi.org/​10.1103/physrevlett.86.5188

[5] R. Raussendorf, DE Browne, HJ Briegel, Iṣiro kuatomu ti o da lori wiwọn lori awọn ipinlẹ iṣupọ, Phys. Ifiweranṣẹ A 68 (2) (2003) 022312. doi: 10.1103 / PhysRevA.68.022312.
https: / / doi.org/ 10.1103 / PhysRevA.68.022312

[6] HJ Briegel, DE Browne, W. Dür, R. Raussendorf, MV den itẹ-ẹiyẹ, Iṣiro-orisun kuatomu, Nat. Physics. 5 (1) (2009) 19-26. doi: 10.1038/nphys1157.
https: / / doi.org/ 10.1038 / nphys1157

[7] HJ Kimble, Intanẹẹti kuatomu, Iseda 453 (7198) (2008) 1023–1030. doi: 10.1038 / iseda07127.
https: / / doi.org/ 10.1038 / nature07127

[8] TD Ladd, F. Jelezko, R. Laflamme, Y. Nakamura, C. Monroe, JL O'Brien, kuatomu awọn kọmputa., Iseda 464 (7285) (2010) 45-53. doi: 10.1038 / iseda08812.
https: / / doi.org/ 10.1038 / nature08812

[9] N. Gisin, G. Ribordy, W. Tittel, H. Zbinden, kuatomu cryptography, Rev. Mod. Phys. 74 (1) (2002) 145-195. doi:10.1103/RevModPhys.74.145.
https: / / doi.org/ 10.1103 / RevModPhys.74.145

[10] H.-S. Zhong, H. Wang, Y.-H. Deng, M.-C. Chen, L.-C. Peng, Y.-H. Luo, J. Qin, D. Wu, X. Ding, Y. Hu, P. Hu, X.-Y. Yang, W.-J. Zhang, H. Li, Y. Li, X. Jiang, L. Gan, G. Yang, L. You, Z. Wang, L. Li, N.-L. Liu, C.-Y. Lu, J.-W. Pan, Awọn anfani iṣiro kuatomu nipa lilo awọn fọto, Imọ 370 (6523) (2020) 1460-1463. doi: 10.1126/ sayensi.abe8770.
https://doi.org/10.1126/science.abe8770

[11] F. Xu, X. Ma, Q. Zhang, H.-K. Wo, J.-W. Pan, Pinpin bọtini kuatomu to ni aabo pẹlu awọn ẹrọ ojulowo, Rev. Mod. Physics. 92 (2) (2020) 025002. doi: 10.1103 / RevModPhys.92.025002.
https: / / doi.org/ 10.1103 / RevModPhys.92.025002

[12] HJ Briegel, R. Raussendorf, Ibanujẹ igbagbogbo ni awọn akojọpọ ti awọn patikulu ibaraenisepo, Phys. Alufa Lett. 86 (5) (2001) 910-913. doi: 10.1103 / PhysRevLett.86.910.
https: / / doi.org/ 10.1103 / PhysRevLett.86.910

[13] M. Varnava, DE Browne, T. Rudolph, Bawo ni O Ṣe Dara Awọn orisun Photon Kanṣoṣo ati Awọn oniwadi Jẹ fun Iṣiro Kuatomu Optical Optical Linear?, Phys. Alufa Lett. 100 (6) (2008) 060502. doi: 10.1103 / PhysRevLett.100.060502.
https: / / doi.org/ 10.1103 / PhysRevLett.100.060502

[14] M. Zwerger, HJ Briegel, W. Dür, Ibaraẹnisọrọ ti o da lori wiwọn, Appl. Physics. B 122 (3) (2016) 50. doi: 10.1007 / s00340-015-6285-8.
https:/​/​doi.org/​10.1007/​s00340-015-6285-8

[15] K. Azuma, K. Tamaki, H.-K. Kiyesi i, All-photonic quantum repeaters, Nat. Commun. 6 (1) (2015) 6787. doi: 10.1038/ncomms7787.
https: / / doi.org/ 10.1038 / ncomms7787

[16] WP Grice, Lainidii pari wiwọn ipinlẹ Bell nipa lilo awọn eroja opiti laini nikan, Phys. Ifiweranṣẹ A 84 (4) (2011) 042331. doi: 10.1103 / PhysRevA.84.042331.
https: / / doi.org/ 10.1103 / PhysRevA.84.042331

[17] T. Kilmer, S. Guha, Igbelaruge laini-opitika Bell wiwọn aṣeyọri iṣeeṣe pẹlu fifin asọtẹlẹ ati awọn aṣawari ipinnu nọmba-photon alaipe, Phys. Rev. A 99 (3) (2019) 032302. doi:10.1103/PhysRevA.99.032302.
https: / / doi.org/ 10.1103 / PhysRevA.99.032302

[18] F. Ewert, P. van Loock, 3/4-Diwọn Iwọn Bell Mudara pẹlu Awọn Opiti Laini Palolo ati Ancillae Ainidi, Phys. Alufa Lett. 113 (14) (2014) 140403. doi: 10.1103 / PhysRevLett.113.140403.
https: / / doi.org/ 10.1103 / PhysRevLett.113.140403

[19] DE Browne, T. Rudolph, Awọn oluşewadi-Dáfáfá Linear Optical Quantum Computation, Phys. Alufa Lett. 95 (1) (2005) 010501. doi: 10.1103 / PhysRevLett.95.010501.
https: / / doi.org/ 10.1103 / PhysRevLett.95.010501

[20] Z. Zhao, Y.-A. Chen, A.-N. Zhang, T. Yang, HJ Briegel, J.-W. Pan, Afihan esiperimenta ti ifunmọ fọto-marun ati teliportation ibi-ìmọ, Iseda 430 (6995) (2004) 54–58. doi: 10.1038 / iseda02643.
https: / / doi.org/ 10.1038 / nature02643

[21] WB Gao, CY Lu, XC Yao, P. Xu, O. Gühne, A. Goebel, YA Chen, CZ Peng, ZB Chen, JW Pan, Experimental ifihan ti a hyper-entangled mẹwa-qubit Schrödinger ologbo ipinle, Nat. Phys. 6 (5) (2010) 331-335. doi:10.1038/nphys1603.
https: / / doi.org/ 10.1038 / nphys1603

[22] X.-L. Wang, L.-K. Chen, W. Li, H.-L. Huang, C. Liu, C. Chen, Y.-H. Luo, Z.-E. Su, D. Wu, Z.-D. Li, H. Lu, Y. Hu, X. Jiang, C.-Z. Peng, L. Li, N.-L. Liu, Y.-A. Chen, C.-Y. Lu, J.-W. Pan, Esiperimenta Mẹwa-Photon Entanglement, Phys. Alufa Lett. 117 (21) (2016) 210502. doi: 10.1103 / PhysRevLett.117.210502.
https: / / doi.org/ 10.1103 / PhysRevLett.117.210502

[23] D. Istrati, Y. Pilnyak, JC Loredo, C. Antón, N. Somaschi, P. Hilaire, H. Ollivier, M. Esmann, L. Cohen, L. Vidro, C. Millet, A. Lemaı̂tre, I. Sagnes , A. Harouri, L. Lanco, P. Senellart, HS Eisenberg, Sequential iran ti laini iṣupọ ipinle lati kan nikan photon emitter, Nat. Commun. 11 (1) (2020) 5501. doi: 10.1038 / s41467-020-19341-4.
https:/​/​doi.org/​10.1038/​s41467-020-19341-4

[24] W. Asavanant, Y. Shiozawa, S. Yokoyama, B. Charoensombutamon, H. Emura, RN Alexander, S. Takeda, J.-i. Yoshikawa, NC Menicucci, H. Yonezawa, A. Furusawa, Iran ti akoko-ašẹ-multiplexed meji-onisẹpo iṣupọ ipinle, Science 366 (6463) (2019) 373-376. doi:10.1126/science.aay2645.
https://doi.org/10.1126/science.aay2645

[25] NH Lindner, T. Rudolph, Imọran fun Pulsed Lori-Ibeere Awọn orisun ti Photonic Cluster State Strings, Phys. Alufa Lett. 103 (11) (2009) 113602. doi:10.1103/PhysRevLett.103.113602.
https: / / doi.org/ 10.1103 / PhysRevLett.103.113602

[26] I. Schwartz, D. Cogan, ER Schmidgall, Y. Don, L. Gantz, O. Kenneth, NH Lindner, D. Gershoni, Ipinnu ipinnu ti ipo iṣupọ ti awọn fọto ti a fi sinu, Imọ 354 (6311) (2016) 434- 437. doi:10.1126/science.aah4758.
https://doi.org/10.1126/science.aah4758

[27] D. Gonţa, T. Radtke, S. Fritzsche, Ipilẹṣẹ ti awọn ipinlẹ iṣupọ onisẹpo meji nipa lilo awọn cavities bimodal ti o ga julọ, Phys. Ifiweranṣẹ A 79 (6) (2009) 062319. doi: 10.1103 / PhysRevA.79.062319.
https: / / doi.org/ 10.1103 / PhysRevA.79.062319

[28] SE Economou, N. Lindner, T. Rudolph, Optically ti ipilẹṣẹ 2-onisẹpo Photonic Cluster State lati Tọkọtaya kuatomu Dots, Phys. Alufa Lett. 105 (9) (2010) 093601. doi: 10.1103 / PhysRevLett.105.093601.
https: / / doi.org/ 10.1103 / PhysRevLett.105.093601

[29] A. Mantri, TF Demarie, JF Fitzsimons, Universality ti kuatomu iṣiro pẹlu awọn ipinlẹ iṣupọ ati (X, Y) -awọn wiwọn ọkọ ofurufu, Sci. Aṣoju 7 (1) (2017) 42861. doi: 10.1038 / srep42861.
https: / / doi.org/ 10.1038 / srep42861

[30] M. Gimeno-Segovia, T. Rudolph, SE Economou, Ipinnu Ipinfunni ti Ipinnu Iṣupọ Photonic ti o tobi julo lati Ibaraẹnisọrọ Solid State Emitters, Phys. Alufa Lett. 123 (7) (2019) 070501. doi: 10.1103 / PhysRevLett.123.070501.
https: / / doi.org/ 10.1103 / PhysRevLett.123.070501

[31] A. Russo, E. Barnes, SE Economou, Iran ti lainidii gbogbo-photonic awonya ipinle lati kuatomu emitters, New J. Phys. 21 (5) (2019) 055002. doi:10.1088/1367-2630/ ab193d.
https://doi.org/​10.1088/1367-2630/ab193d

[32] A. Russo, E. Barnes, SE Economou, Photonic graph iran iran lati kuatomu aami ati awọ awọn ile-iṣẹ fun kuatomu awọn ibaraẹnisọrọ, Phys. Ifiweranṣẹ B 98 (8) (2018) 085303. doi: 10.1103 / PhysRevB.98.085303.
https://doi.org/​10.1103/PhysRevB.98.085303

[33] D. Buterakos, E. Barnes, SE Economou, Ipinnu Ipin ti Gbogbo-Photonic kuatomu Repeaters lati Solid-State Emitters, Phys. Ifiweranṣẹ X 7 (4) (2017) 041023. doi: 10.1103 / PhysRevX.7.041023.
https: / / doi.org/ 10.1103 / PhysRevX.7.041023

[34] G. Waldherr, Y. Wang, S. Zaiser, M. Jamali, T. Schulte-Herbrüggen, H. Abe, T. Ohshima, J. Isoya, JF Du, P. Neumann, J. Wrachtrup, Atunse aṣiṣe kuatomu ni a ri to-ipinle arabara omo ere Forukọsilẹ, Nature 506 (7487) (2014) 204-207. doi: 10.1038 / iseda12919.
https: / / doi.org/ 10.1038 / nature12919

[35] DA Gangloff, G. Éthier-Majcher, C. Lang, EV Denning, JH Bodey, DM Jackson, E. Clarke, M. Hugues, C. Le Gall, M. Atatüre, kuatomu wiwo ti ohun elekitironi ati ki o kan iparun oko, Science Science. 364 (6435) (2019) 62-66. doi:10.1126/science.aaw2906.
https://doi.org/10.1126/science.aaw2906

[36] MH Metsch. Ile-iṣẹ Ofo ni Diamond, Phys. Alufa Lett. 122 (19) (2019) 190503. doi:10.1103/PhysRevLett.122.190503.
https: / / doi.org/ 10.1103 / PhysRevLett.122.190503

[37] M. Atatüre, D. Englund, N. Vamivakas, S.-Y. Lee, J. Wrachtrup, Awọn iru ẹrọ ohun elo fun awọn imọ-ẹrọ kuatomu photonic ti o da lori alayipo, Nat. Alufa Mater. 3 (5) (2018) 38-51. doi: 10.1038 / s41578-018-0008-9.
https:/​/​doi.org/​10.1038/​s41578-018-0008-9

[38] E. Janitz, MK Bhaskar, L. Childress, Cavity quantum electrodynamics pẹlu awọn ile-iṣẹ awọ ni diamond, Optica 7 (10) (2020) 1232. doi: 10.1364/OPTICA.398628.
https://doi.org/​10.1364/OPTICA.398628

[39] JL O'Brien, A. Furusawa, J. Vučković, Awọn imọ-ẹrọ kuatomu Photonic, Nat. Photonics 3 (12) (2009) 687-695. doi:10.1038/nphoton.2009.229.
https://doi.org/10.1038/nphoton.2009.229

[40] M. Paillard, X. Marie, E. Vanelle, T. Amand, VK Kalevich, AR Kovsh, AE Zhukov, VM Ustinov, Photoluminescence ti o yanju akoko ni awọn aami-ara InAs/GaAs kuatomu ti o ṣajọpọ labẹ isunmi ti o muna, Appl. Physics. Lett. 76 (1) (2000) 76-78. doi:10.1063/1.125661.
https: / / doi.org/ 10.1063 / 1.125661

[41] D. Najer, I. Söllner, P. Sekatski, V. Dolique, MC Löbl, D. Riedel, R. Schott, S. Starosielec, SR Valentin, AD Wieck, N. Sangouard, A. Ludwig, RJ Warburton, A gated aami kuatomu ni agbara pọ si microcavity opiti, Iseda 575 (7784) (2019) 622-627. doi: 10.1038 / s41586-019-1709-y.
https://doi.org/​10.1038/​s41586-019-1709-y

[42] P. Senellart, G. Solomoni, A. White, semikondokito ti o ga julọ-dot awọn orisun fọto kan, Nat. Nanotechnol. 12 (11) (2017) 1026-1039. doi:10.1038/nnano.2017.218.
https://doi.org/​10.1038/nnano.2017.218

[43] E. Peter, J. Wakati, P. Senellart, A. Vasanelli, A. Cavanna, J. Bloch, JM Gérard, Phonon sidebands ni exciton ati biexciton itujade lati nikan GaAs kuatomu aami, Phys. Ifiweranṣẹ B 69 (4) (2004) 041307. doi: 10.1103 / PhysRevB.69.041307.
https://doi.org/​10.1103/PhysRevB.69.041307

[44] C. Matthiesen, M. Geller, CHH Schulte, C. Le Gall, J. Hansom, Z. Li, M. Hugues, E. Clarke, M. Atatüre, Awọn fọto ti a ko ni titiipa ti o ni titiipa pẹlu awọn ọna igbi ti iṣelọpọ lati orisun-ipinle ti o lagbara. , Àt. Commun. 4 (1) (2013) 1600. doi:10.1038/ncomms2601.
https: / / doi.org/ 10.1038 / ncomms2601

[45] K. Konthasinghe, J. Walker, M. Peiris, CK Shih, Y. Yu, MF Li, JF He, LJ Wang, HQ Ni, ZC Niu, A. Muller, Isokan dipo ina incoherent ti ntan kaakiri lati aami kuatomu, Phys. Ifiweranṣẹ B 85 (23) (2012) 235315. doi: 10.1103 / PhysRevB.85.235315.
https://doi.org/​10.1103/PhysRevB.85.235315

[46] A. Bechtold, D. Rauch, F. Li, T. Simmet, P.-L. Ardelt. Phys. 11 (12) (2015) 1005-1008. doi:10.1038/nphys3470.
https: / / doi.org/ 10.1038 / nphys3470

[47] R. Stockill, C. Le Gall, C. Matthiesen, L. Huthmacher, E. Clarke, M. Hugues, M. Atatüre, Quantum dot spin coherence ti o ṣakoso nipasẹ agbegbe iparun ti o ni wahala, Nat. Commun. 7 (1) (2016) 12745. doi:10.1038/ncomms12745.
https: / / doi.org/ 10.1038 / ncomms12745

[48] A. Högele, M. Kroner, C. Latta, M. Claassen, I. Carusotto, C. Bulutay, A. Imamoglu, Dynamic Nuclear Spin Polarization in the Resonant Laser Excitation of an InGaAs Quantum Dot, Phys. Alufa Lett. 108 (19) (2012) 197403. doi:10.1103/PhysRevLett.108.197403.
https: / / doi.org/ 10.1103 / PhysRevLett.108.197403

[49] DJ Christle, PV Klimov, CF de las Casas, K. Szász, V. Ivády, V. Jokubavicius, J. Ul Hassan, M. Syväjärvi, WF Koehl, T. Ohshima, NT Ọmọ, E. Janzén, Á. Gali, DD Awschalom, Iyasọtọ Spin Qubits ni SiC pẹlu Ibaramu Infurarẹẹdi ti o gaju-si-Photon Interface, Phys. Ifiweranṣẹ X 7 (2) (2017) 021046. doi: 10.1103 / PhysRevX.7.021046.
https: / / doi.org/ 10.1103 / PhysRevX.7.021046

[50] G. Calusine, A. Politi, DD Awschalom, Silicon carbide photonic gara cavities pẹlu ese awọ awọn ile-iṣẹ, Appl. Physics. Lett. 105 (1) (2014) 011123. doi: 10.1063 / 1.4890083.
https: / / doi.org/ 10.1063 / 1.4890083

[51] A. Bourassa, CP Anderson, KC Miao, M. Onizhuk, H. Ma, AL Crook, H. Abe, J. Ul-Hassan, T. Ohshima, NT Ọmọ, G. Galli, DD Awschalom, Entanglement ati iṣakoso ti nikan iparun spins ni isotopically atunse silikoni carbide, Nat. Mater. 19 (12) (2020) 1319-1325. doi: 10.1038 / s41563-020-00802-6.
https:/​/​doi.org/​10.1038/​s41563-020-00802-6

[52] L. Spindlberger, A. Csóré, G. Thiering, S. Putz, R. Karhu, JU Hassan, NT Ọmọ, T. Fromherz, A. Gali, M. Trupke, Awọn ohun-ini Optical ti Vanadium ni 4 H Silicon Carbide fun Imọ-ẹrọ Quantum , Phys. Rev. Applied 12 (1) (2019) 014015. doi: 10.1103 / PhysRevApplied.12.014015.
https://doi.org/​10.1103/PhysRevApplied.12.014015

[53] G. Wolfowicz, CP Anderson, B. Diler, OG Poluektov, FJ Heremans, DD Awschalom, Vanadium spin qubits bi telecom kuatomu emitters ni silicon carbide, Sci. Adv. 6 (18) (2020) eeaz1192. doi:10.1126/sciadv.aaz1192.
https://doi.org/10.1126/sciadv.aaz1192

[54] NB Manson, JP Harrison, MJ Sellars, Nitrogen-foofo aarin ni diamond: Awoṣe ti itanna be ati ki o ni nkan ṣe dainamiki, Phys. Ifiweranṣẹ B 74 (10) (2006) 104303. doi: 10.1103 / PhysRevB.74.104303.
https://doi.org/​10.1103/PhysRevB.74.104303

[55] D. Riedel, I. Söllner, BJ Shields, S. Starosielec, P. Appel, E. Neu, P. Maletinsky, RJ Warburton, Imudara Imudara ti Imudaniloju Photon Generation lati Ile-iṣẹ Nitrogen-Vacancy ni Ultrapure Diamond, Phys. Ifiweranṣẹ X 7 (3) (2017) 031040. doi: 10.1103 / PhysRevX.7.031040.
https: / / doi.org/ 10.1103 / PhysRevX.7.031040

[56] M. Berthel, O. Mollet, G. Dantelle, T. Gacoin, S. Huant, A. Drezet, Photophysics ti awọn ile-iṣẹ aye-ofo nitrogen kan ni awọn nanocrystal diamond, Phys. Ifiweranṣẹ B 91 (3) (2015) 035308. doi: 10.1103 / PhysRevB.91.035308.
https://doi.org/​10.1103/PhysRevB.91.035308

[57] RN Patel, T. Schröder, N. Wan, L. Li, SL Mouradian, EH Chen, DR Englund, Ṣiṣepọ photon daradara lati inu ile-iṣẹ ofofo diamond nitrogen nipasẹ isọpọ pẹlu okun silica, Light Sci. App. 5 (2) (2016) e16032–e16032. doi:10.1038/lsa.2016.32.
https://doi.org/10.1038/lsa.2016.32

[58] I. Aharonovich, S. Castelletto, DA Simpson, C.-H. Su, AD Greentree, S. Prawer, Diamond-orisun nikan-Fọto emitters, Iroyin Prog. Physics. 74 (7) (2011) 076501. doi:10.1088/0034-4885/74/7/076501.
https:/​/​doi.org/​10.1088/​0034-4885/​74/​7/​076501

[59] PC Humphreys, N. Kalb, JP Morits, RN Schouten, RF Vermeulen, DJ Twitchen, M. Markham, R. Hanson, Ifijiṣẹ ipinnu ti isakoṣo latọna jijin lori nẹtiwọki kuatomu, Iseda 558 (7709) (2018) 268-273. doi: 10.1038 / s41586-018-0200-5.
https:/​/​doi.org/​10.1038/​s41586-018-0200-5

[60] W. Pfaff, TH Taminiau, L. Robledo, H. Bernien, M. Markham, DJ Twitchen, R. Hanson, Afihan ti entanglement-nipasẹ-diwọn ti ri to-ipinle qubits, Nat. Phys. 9 (1) (2013) 29-33. doi:10.1038/nphys2444.
https: / / doi.org/ 10.1038 / nphys2444

[61] JN Becker, B. Pingault, D. Groß, M. Gündoğan, N. Kukharchyk, M. Markham, A. Edmonds, M. Atatüre, P. Bushev, C. Becher, Gbogbo-Optical Iṣakoso ti Silicon-Vacancy Spin ni Diamond ni Millikelvin Awọn iwọn otutu, Phys. Alufa Lett. 120 (5) (2018) 053603. doi: 10.1103 / PhysRevLett.120.053603.
https: / / doi.org/ 10.1103 / PhysRevLett.120.053603

[62] MK Bhaskar, R. Riedinger, B. Machielse, DS Levonian, CT Nguyen, EN Knall, H. Park, D. Englund, M. Lončar, DD Sukachev, MD Lukin, Ifihan esiperimenta ti ibaraẹnisọrọ kuatomu ti o ni ilọsiwaju iranti, Iseda 580 ( 7801) (2020) 60-64. doi: 10.1038 / s41586-020-2103-5.
https:/​/​doi.org/​10.1038/​s41586-020-2103-5

[63] DD Sukachev, A. Sipahigil, CT Nguyen, MK Bhaskar, RE Evans, F. Jelezko, MD Lukin, Silicon-Vacancy Spin Qubit in Diamond: A Quantum Memory Exceeding 10 ms with Single-Shot State Readout, Phys. Alufa Lett. 119 (22) (2017) 223602. doi:10.1103/PhysRevLett.119.223602.
https: / / doi.org/ 10.1103 / PhysRevLett.119.223602

[64] E. Neu, M. Fischer, S. Gsell, M. Schreck, C. Becher, Fluorescence ati polarization spectroscopy ti awọn ile-iṣẹ isinmi silikoni kan ṣoṣo ni heteroepitaxial nanodiamonds lori iridium, Phys. Ifiweranṣẹ B 84 (20) (2011) 205211. doi: 10.1103 / PhysRevB.84.205211.
https://doi.org/​10.1103/PhysRevB.84.205211

[65] E. Neu, D. Steinmetz, J. Riedrich-Möller, S. Gsell, M. Fischer, M. Schreck, C. Becher, Ijadejade photon ẹyọkan lati awọn ile-iṣẹ awọ silikoni-ṣofo ni ifasilẹ awọn nano-diamonds ti kemikali lori iridium, Titun J. Phys. 13 (2) (2011) 025012. doi:10.1088/1367-2630/13/2/025012.
https:/​/​doi.org/​10.1088/​1367-2630/​13/​2/​025012

[66] B. Pingault, D.-D. Jarausch, C. Hepp, L. Klintberg, JN Becker, M. Markham, C. Becher, M. Atatüre, Iṣakoso iṣọkan ti silikoni-vacancy spin ni diamond, Nat. Commun. 8 (1) (2017) 15579. doi:10.1038/ncomms15579.
https: / / doi.org/ 10.1038 / ncomms15579

[67] AM Edmonds, ME Newton, PM Martineau, DJ Twitchen, SD Williams, Itanna paramagnetic resonance iwadi ti ohun alumọni-jẹmọ abawọn ni diamond, Phys. Ifiweranṣẹ B 77 (24) (2008) 245205. doi: 10.1103 / PhysRevB.77.245205.
https://doi.org/​10.1103/PhysRevB.77.245205

[68] T. Iwasaki, F. Ishibashi, Y. Miyamoto, Y. Doi, S. Kobayashi, T. Miyazaki, K. Tahara, KD Jahnke, LJ Rogers, B. Naydenov, F. Jelezko, S. Yamasaki, S. Nagamachi, T. Inubushi, N. Mizuochi, M. Hatano, Germanium-Vacancy Nikan Awọ Awọn ile-iṣẹ ni Diamond, Sci. Aṣoju 5 (1) (2015) 12882. doi: 10.1038 / srep12882.
https: / / doi.org/ 10.1038 / srep12882

[69] MK Bhaskar, DD Sukachev, A. Sipahigil, RE Evans, MJ Burek, CT Nguyen, LJ Rogers, P. Siyushev, MH Metsch, H. Park, F. Jelezko, M. Lončar, MD Lukin, kuatomu aiṣedeede optics pẹlu germanium kan. -aaye awọ aarin ni a nanoscale Diamond waveguide, Phys. Alufa Lett. 118 (2017) 223603. doi: 10.1103 / PhysRevLett.118.223603.
https: / / doi.org/ 10.1103 / PhysRevLett.118.223603

[70] YN Palyanov, IN Kupriyanov, YM Borzdov, NV Surovtsev, Germanium: ayase tuntun fun iṣelọpọ diamond ati aimọ ti nṣiṣe lọwọ tuntun ni diamond, Sci. Aṣoju 5 (1) (2015) 14789. doi: 10.1038 / srep14789.
https: / / doi.org/ 10.1038 / srep14789

[71] ME Trusheim, B. Pingault, NH Wan, M. Gündoğan, L. De Santis, R. Debroux, D. Gangloff, C. Purser, KC Chen, M. Walsh, JJ Rose, JN Becker, B. Lienhard, E. Bersin, I. Paradeisanos, G. Wang, D. Lyzwa, AR-P. Montblanch, G. Malladi, H. Bakhru, AC Ferrari, IA Walmsley, M. Atatüre, D. Englund, Awọn fọto ti o ni opin-iyipada Lati Iyipo Tin-Vacancy Spin ni Diamond, Phys. Alufa Lett. 124 (2) (2020) 023602. doi: 10.1103 / PhysRevLett.124.023602.
https: / / doi.org/ 10.1103 / PhysRevLett.124.023602

[72] AE Rugar, S. Aghaeimeibodi, D. Riedel, C. Dory, H. Lu, PJ McQuade, Z.-X. Shen, NA Melosh, J. Vučković, Quantum Photonic Interface fun Tin-Vacancy Centre ni Diamond, Phys. Ifiweranṣẹ X 11 (3) (2021) 031021. doi: 10.1103 / PhysRevX.11.031021.
https: / / doi.org/ 10.1103 / PhysRevX.11.031021

[73] T. Iwasaki, Y. Miyamoto, T. Taniguchi, P. Siyushev, MH Metsch, F. Jelezko, M. Hatano, Tin-Vacancy Quantum Emitters ni Diamond, Phys. Alufa Lett. 119 (25) (2017) 253601. doi: 10.1103 / PhysRevLett.119.253601.
https: / / doi.org/ 10.1103 / PhysRevLett.119.253601

[74] J. Görlitz, D. Herrmann, G. Thiering, P. Fuchs, M. Gandil, T. Iwasaki, T. Taniguchi, M. Kieschnick, J. Meijer, M. Hatano, A. Gali, C. Becher, Awọn iwadii Spectroscopic ti awọn ile-iṣẹ tin-ṣofo ti ko ni idiyele ni diamond, New J. Phys. 22 (1) (2020) 013048. doi: 10.1088 / 1367-2630 / ab6631.
https://doi.org/​10.1088/1367-2630/ab6631

[75] R. Debroux, CP Michaels, CM Purser, N. Wan, ME Trusheim, JA Martínez, RA Parker, AM Stramma, KC Chen, L. de Santis, EM Alexeev, AC Ferrari, D. Englund, DA Gangloff, M. Atatüre , Kuatomu Iṣakoso ti tin-ofo spin qubit ni diamond, arXiv:2106.00723 (2021).
arXiv: 2106.00723

[76] N. Tomm, A. Javadi, KO Antoniadis, D. Najer, MC Löbl, AR Korsch, R. Schott, SR Valentin, AD Wieck, A. Ludwig, RJ Warburton, A imọlẹ ati ki o yara orisun ti coherent nikan photons, Nat. Nanotechnol. 16 (4) (2021) 399-403. doi: 10.1038 / s41565-020-00831-x.
https://doi.org/​10.1038/s41565-020-00831-x

[77] D. Kim, SG Carter, A. Greilich, AS Bracker, D. Gammon, Ultrafast opitika Iṣakoso ti entanglement laarin meji kuatomu-aami spins, Nat. Physics. 7 (3) (2011) 223-229. doi:10.1038/nphys1863.
https: / / doi.org/ 10.1038 / nphys1863

[78] D. Ding, MH Appel, A. Javadi, X. Zhou, MC Löbl, I. Söllner, R. Schott, C. Papon, T. Pregnolato, L. Midolo, AD Wieck, A. Ludwig, RJ Warburton, T. Schröder, P. Lodahl, Iṣakoso Opitika Iṣọkan ti Kuatomu-Dot Spin-Qubit ni Atọpa-Photon Ipilẹ Waveguide, Phys. Rev. Applied 11 (3) (2019) 031002. doi:10.1103/PhysRevApplied.11.031002.
https://doi.org/​10.1103/PhysRevApplied.11.031002

[79] JH Bodey, R. Stockill, EV Denning, DA Gangloff, G. Éthier-Majcher, DM Jackson, E. Clarke, M. Hugues, CL Gall, M. Atatüre, Titiipa alayipo opiti ti qubit-ipinle ti o lagbara, npj kuatomu Inf . 5 (1) (2019) 95. doi:10.1038/s41534-019-0206-3.
https:/​/​doi.org/​10.1038/​s41534-019-0206-3

[80] EV Denning, DA Gangloff, M. Atatüre, J. Mørk, C. Le Gall, Collective kuatomu Memory Mu ṣiṣẹ nipasẹ a Driven Central Spin, Phys. Alufa Lett. 123 (14) (2019) 140502. doi:10.1103/PhysRevLett.123.140502.
https: / / doi.org/ 10.1103 / PhysRevLett.123.140502

[81] CF De Las Casas, DJ Christle, J. Ul Hassan, T. Ohshima, NT Ọmọ, DD Awschalom, Stark tuning ati itanna idiyele ipinle Iṣakoso ti nikan divacancies ni silikoni carbide, Appl. Physics. Lett. 111 (26) (2017) 262403. doi: 10.1063 / 1.5004174.
https: / / doi.org/ 10.1063 / 1.5004174

[82] TT Tran, K. Bray, MJ Ford, M. Toth, I. Aharonovich, kuatomu itujade lati hexagonal boron nitride monolayers, Nat. Nanotechnol. 11 (1) (2016) 37-41. doi:10.1038/nnano.2015.242.
https://doi.org/​10.1038/nnano.2015.242

[83] T. Zhong, JM Kindem, J. Rochman, A. Faraon, Interfacing àsopọmọBurọọdubandi photonic qubits to lori-chip iho-idaabobo toje-aiye ensembles, Nat. Commun. 8 (1) (2017) 14107. doi: 10.1038 / ncomms14107.
https: / / doi.org/ 10.1038 / ncomms14107

[84] I. Aharonovich, AD Greentree, S. Prawer, Diamond photonics, Nat. Photonics 5 (7) (2011) 397-405. doi:10.1038/nphoton.2011.54.
https://doi.org/10.1038/nphoton.2011.54

[85] I. Aharonovich, E. Neu, Diamond Nanophotonics, Adv. Jáde. Mater. 2 (10) (2014) 911-928. doi:10.1002/adom.201400189.
https://doi.org/​10.1002/​adom.201400189

[86] I. Aharonovich, D. Englund, M. Toth, Ri to-ipinle nikan-photon emitters, Nat. Photonics 10 (10) (2016) 631-641. doi:10.1038/nphoton.2016.186.
https://doi.org/10.1038/nphoton.2016.186

[87] GD Fuchs, G. Burkard, PV Klimov, DD Awschalom, A kuatomu iranti ojulowo si nikan nitrogen-ṣofo awọn ile-iṣẹ ni diamond, Nat. Phys. 7 (10) (2011) 789-793. doi:10.1038/nphys2026.
https: / / doi.org/ 10.1038 / nphys2026

[88] J. Holzgrafe, J. Beitner, D. Kara, HS Knowles, M. Atatüre, Aṣiṣe ti ṣe atunṣe kika iwe-ipinle ni nanodiamond, npj Quantum Inf. 5 (1) (2019) 13. doi: 10.1038 / s41534-019-0126-2.
https:/​/​doi.org/​10.1038/​s41534-019-0126-2

[89] E. Togan, Y. Chu, AS Trifonov, L. Jiang, J. Maze, L. Childress, MVG Dutt, AS Sørensen, PR Hemmer, AS Zibrov, MD Lukin, kuatomu entanglement laarin ohun opitika photon ati ki o kan ri to-ipinle alayipo. qubit, Iseda 466 (7307) (2010) 730-734. doi: 10.1038 / iseda09256.
https: / / doi.org/ 10.1038 / nature09256

[90] C. Bradac, W. Gao, J. Forneris, ME Trusheim, I. Aharonovich, Kuatomu nanophotonics pẹlu awọn abawọn ẹgbẹ IV ni diamond, Nat. Commun. 10 (1) (2019) 5625. doi:10.1038/s41467-019-13332-w.
https://doi.org/10.1038/s41467-019-13332-w

[91] ME Trusheim, NH Wan, KC Chen, CJ Ciccarino, J. Flick, R. Sundararaman, G. Malladi, E. Bersin, M. Walsh, B. Lienhard, H. Bakhru, P. Narang, D. Englund, asiwaju- ti o ni ibatan kuatomu emitters ni diamond, Phys. Ifiweranṣẹ B 99 (7) (2019) 075430. doi: 10.1103 / PhysRevB.99.075430.
https://doi.org/​10.1103/PhysRevB.99.075430

[92] NH Wan. , Iseda 583 (7815) (2020) 226-231. doi: 10.1038 / s41586-020-2441-3.
https:/​/​doi.org/​10.1038/​s41586-020-2441-3

[93] K. Kuruma, B. Pingault, C. Chia, D. Renaud, P. Hoffmann, S. Iwamoto, C. Ronning, M. Lončar, Isopọpọ ile-iṣẹ aaye kan-ṣofo kan si ihò gara photonic ni diamond, Applied Physics Awọn lẹta 118 (23) (2021) 230601. doi: 10.1063 / 5.0051675.
https: / / doi.org/ 10.1063 / 5.0051675

[94] P. Fuchs, T. Jung, M. Kieschnick, J. Meijer, C. Becher, A iho-orisun opitika eriali fun awọ awọn ile-iṣẹ ni diamond, APL Photonics 6 (8) (2021) 086102. doi: 10.1063/5.0057161.
https: / / doi.org/ 10.1063 / 5.0057161

[95] C. Hepp, T. Müller, V. Waselowski, JN Becker, B. Pingault, H. Sternschulte, D. Steinmüller-Nethl, A. Gali, JR Maze, M. Atatüre, C. Becher, Ẹrọ Itanna ti Silicon Vacancy Awọ Center i Diamond, Phys. Alufa Lett. 112 (3) (2014) 036405. doi: 10.1103 / PhysRevLett.112.036405.
https: / / doi.org/ 10.1103 / PhysRevLett.112.036405

[96] LJ Rogers, KD Jahnke, MW Doherty, A. Dietrich, LP McGuinness, C. Müller, T. Teraji, H. Sumiya, J. Isoya, NB Manson, F. Jelezko, Ẹrọ itanna ti ile-iṣẹ silikoni-ofo ni odi gba agbara ni okuta iyebiye, Phys. Ifiweranṣẹ B 89 (23) (2014) 235101. doi: 10.1103 / PhysRevB.89.235101.
https://doi.org/​10.1103/PhysRevB.89.235101

[97] S. Meesala, Y.-I. Sohn, B. Pingault, L. Shao, HA Atikian, J. Holzgrafe, M. Gündoğan, C. Stavrakas, A. Sipahigil, C. Chia, R. Evans, MJ Burek, M. Zhang, L. Wu, JL Pacheco , J. Abraham, E. Bielejec, MD Lukin, M. Atatüre, M. Lončar, Imọ-ẹrọ Strain ti ile-iṣẹ siliki-ofo ni diamond, Phys. Ifiweranṣẹ B 97 (20) (2018) 205444. doi: 10.1103 / PhysRevB.97.205444.
https://doi.org/​10.1103/PhysRevB.97.205444

[98] Y.-I. Sohn, S. Meesala, B. Pingault, HA Atikian, J. Holzgrafe, M. Gündoğan, C. Stavrakas, MJ Stanley, A. Sipahigil, J. Choi, M. Zhang, JL Pacheco, J. Abraham, E. Bielejec , MD Lukin, M. Atatüre, M. Lončar, Ṣiṣakoso isokan ti diamond spin qubit nipasẹ agbegbe igara rẹ, Nat. Commun. 9 (1) (2018) 2012. doi: 10.1038 / s41467-018-04340-3.
https:/​/​doi.org/​10.1038/​s41467-018-04340-3

[99] A. Gali, JR iruniloju, Ab initio iwadi ti pipin silikoni-ofo abawọn ninu diamond: Itanna be ati ki o jẹmọ-ini, Phys. Ifiweranṣẹ B 88 (23) (2013) 235205. doi: 10.1103 / PhysRevB.88.235205.
https://doi.org/​10.1103/PhysRevB.88.235205

[100] B. Pingault, Ile-iṣẹ aaye silikoni ni diamond fun sisẹ alaye kuatomu, Ph.D. iwe-ẹkọ, Cambridge (2017). doi:10.17863/CAM.15577.
https://doi.org/10.17863/CM.15577

[101] TH Taminiau, J. Cramer, T. van der Sar, VV Dobrovitski, R. Hanson, iṣakoso gbogbo agbaye ati atunṣe aṣiṣe ni awọn iforukọsilẹ olona-qubit spin ni diamond, Nat. Nanotechnol. 9 (3) (2014) 171-176. doi:10.1038/nnano.2014.2.
https://doi.org/​10.1038/nnano.2014.2

[102] I. Schwartz, J. Scheuer, B. Tratzmiller, S. Müller, Q. Chen, I. Dhand, Z.-Y. Wang. Adv. 4 (8) (2018) jẹun8978. doi: 10.1126/sciadv.aat8978.
https://doi.org/10.1126/sciadv.aat8978

[103] K. De Greve, L. Yu, PL McMahon, JS Pelc, CM Natarajan, NY Kim, E. Abe, S. Maier, C. Schneider, M. Kamp, et al., Kuatomu-dot spin–photon entanglement nipasẹ igbohunsafẹfẹ downconversion to Telikomu wefulenti, Iseda 491 (7424) (2012) 421-425. doi: 10.1038 / iseda11577.
https: / / doi.org/ 10.1038 / nature11577

[104] W. Gao, P. Fallahi, E. Togan, J. Miguel-Sánchez, A. Imamoglu, Ṣiṣayẹwo ifaramọ laarin iyipo aami kuatomu ati photon kan, Nature 491 (7424) (2012) 426-430. doi: 10.1038 / iseda11573.
https: / / doi.org/ 10.1038 / nature11573

[105] JR Schailey, AP Burgers, GA McCracken, L.-M. Duan, PR Berman, DG Steel, AS Bracker, D. Gammon, LJ Sham, Afihan ti kuatomu Entanglement laarin Kan Nikan Electron Spin Ni Fi si InAs Quantum Dot ati Photon, Phys. Alufa Lett. 110 (16) (2013) 167401. doi:10.1103/PhysRevLett.110.167401.
https: / / doi.org/ 10.1103 / PhysRevLett.110.167401

[106] R. Vasconcelos, S. Reisenbauer, C. Salter, G. Wachter, D. Wirtitsch, J. Schmiedmayer, P. Walther, M. Trupke, Scalable spin–photon entanglement nipasẹ akoko-si-polarization iyipada, npj kuatomu Inf. 6 (1) (2020) 9. doi:10.1038/s41534-019-0236-x.
https://doi.org/​10.1038/s41534-019-0236-x

[107] EA Chekhovich, SFC da Silva, A. Rastelli, Iforukọsilẹ kuatomu alayipo iparun ni aami kuatomu semikondokito ti nṣiṣe lọwọ optically, Nat. Nanotechnol. 15 (12) (2020) 999-1004. doi: 10.1038 / s41565-020-0769-3.
https:/​/​doi.org/​10.1038/​s41565-020-0769-3

[108] Z.-H. Wang, G. de Lange, D. Ristè, R. Hanson, VV Dobrovitski, Ifiwera ti awọn ilana isọdọtun ti o ni agbara fun ile-iṣẹ aye nitrogen ni diamond, Phys. Ifiweranṣẹ B 85 (15) (2012) 155204. doi: 10.1103 / PhysRevB.85.155204.
https://doi.org/​10.1103/PhysRevB.85.155204

Sọ nipa

[1] Bikun Li, Sophia E. Economou, ati Edwin Barnes, "Ile-iṣẹ photon ti a kojọpọ: Bii o ṣe le ṣe agbekalẹ awọn ipinlẹ orisun kuatomu lati nọmba to kere julọ ti awọn olujade kuatomu”, arXiv: 2108.12466.

Awọn atokọ ti o wa loke wa lati SAO / NASA ADS (imudojuiwọn ti o gbẹhin ni aṣeyọri 2021-10-23 14:31:01). Atokọ naa le pe bi kii ṣe gbogbo awọn onisewejade ti o pese data pipe ati pipe.

On Iṣẹ ti a tọka-nipasẹ Crossref ko si data lori awọn iṣẹ atokọ ti a ri (igbidanwo kẹhin 2021-10-23 14:31:00).

Iwe yii ni a tẹjade ni kuatomu labẹ awọn Idawọle Creative Commons 4.0 International (CC BY 4.0) iwe-aṣẹ. Aṣẹ-ori wa pẹlu awọn ti o ni aṣẹ lori ara atilẹba bi awọn onkọwe tabi awọn ile-iṣẹ wọn.

PlatoAi. Webim Reimagined. Data oye Amplified.
Tẹ ibi lati wọle si.

Orisun: https://quantum-journal.org/papers/q-2021-10-19-565/

iranran_img

Titun oye

iranran_img

Aṣẹ-lori-ara @ 2024 Plato Technologies Inc.

Iwiregbe pẹlu wa

Bawo ni nibe yen o! Bawo ni se le ran lowo?