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The laser cooling, trapping and manipulating of neutral atoms has become a valuable tool for scientists, providing innovative ways to probe the nature of reality and giving rise to transformative devices in the fields of precise measurement and quantum information processing. Unlike traditional complex and bulky atomic experimental facilities, atom chips, through the design, fabrication of surface-patterned microstructures, and the integration of devices on the substrates, can precisely control the magnetic, electric or optical fields on a micro-nano scale with low power consumption. It can realize strong trapping as well as coherent atomic manipulation. Since atom chip was first proposed twenty years ago, it has built a robust quantum platform for miniaturizing and integrating quantum optics and atomic physics tools on a chip. In this paper, first, we briefly review the development history of atom chips, then introduce the basic knowledge of micro potential traps and micro guides based on on-chip current-carrying wires. Afterwards, the key technologies about the chip material, design, fabrication, characterization and integration of atom chips are discussed in detail. We not only focus on the currently most active and successful areas - current carrying wires, but also look at more visionary approaches such as to the manipulation of atoms with real nano structures, say, carbon nano tubes. The design and fabrication principles of ideal atom chips are discussed as well. In the forth part, the worldwide plans and research projects involving with atom chip technologies are summarized, showing that many countries see this as an important foundational technology. Following that, the major developments in the application fields including atom clocks, atom interferometer gyroscope, cold atom gravimeter, etc are described. Finally, the challenges faced by atom chips towards practical application are pointed out and the prospects for their subsequent development are depicted.
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Keywords:
- atom chip /
- magnetic guide of atom /
- cold atom /
- atom optics
[1] Schmiedmayer J 1995 Phys. Rev. A 52 R13Google Scholar
[2] Schmiedmayer J 1995 Appl. Phys. B 60 169
[3] Reichel J, Hänsel W, Hänsch T 1999 Phys. Rev. Lett. 83 3398Google Scholar
[4] Hänsel W, Reichel J, Hommelhoff P, Hänsch T 2001 Phys. Rev. A 64 063607Google Scholar
[5] Fortagh J, Zimmermann C 2007 Rev. Mod. Phys. 79 235Google Scholar
[6] Eriksson S, Trupke M, Powell H F 2005 Eur. Phys. J. D 35 135
[7] Trupke M, Goldwin J, Darquié B 2007 Phys. Rev. Lett. 99 063601
[8] Helsby S, Corbari C, Ibsen M, Horak P, Kazansky P 2007 Phys. Rev. A 75 013618
[9] Mukai T, Hufnagel C, Kasper A, Meno T, Tsukada A, Semba K, Shimizu F 2007 Phys. Rev. Lett. 98 260407Google Scholar
[10] Pollock S, Cotter J, Laliotis A, Hinds E 2009 Opt. Express 17 14109
[11] 印建平 2012 原子光学: 基本概念、原理、技术及其应用 (上海: 上海交通大学出版社)
Yin J P 2012 Atomic Optics: Basic Concepts, Principles, Techniques and Their Applications (Shanghai: Shanghai Jiao Tong University Press) (in Chinese)
[12] Ketterle W, Durfee D, Stamper-Kurn D 1999 Proceedings of the International School of Physics, Varenna, Italy, April, 1999
[13] Pritchard D E 1983 Phys. Rev. Lett. 51 1336Google Scholar
[14] Cornell E A, Monroe C, Wieman C E 1991 Phys. Rev. Lett. 67 2439Google Scholar
[15] Ketterle W, Pritchard D E 1992 Phys. Rev. A 46 4051Google Scholar
[16] Petrich W, Anderson M H, Ensher J R 1995 Phys. Rev. Lett. 74 3352Google Scholar
[17] 柯敏, 李晓林, 王育竹 2005 物理学进展 25 48Google Scholar
Ke M, Li X L, Wang Y Z 2005 Progress Phys. 25 48Google Scholar
[18] Cassettari D, Chenet A, Folman R 2000 Appl. Phys. B 70 721
[19] Reichel J, Hänsel W, Hommelhoff P 2001 Appl. Phys. B 72 81
[20] Hänsel W 2000 Ph. D. Dissertation (Germany: Ludwig-Maximilians-Universität München)
[21] Weinstein J D, Libbrecht K G 1995 Phys. Rev. A 52 4004Google Scholar
[22] Folman R, Krüger P, Schmiedmayer J, Denschlag J, Henkel C 2002 Adv. Atom. Mol. Opt. Phy. 48 26
[23] Hänsel W, Reichel J, Hommelhoff P, Hänsch T W 2001 Phys. Rev. Lett. 86 608Google Scholar
[24] Long R, Rom T, Hänsel W, Hänsch T W, Reichel J 2005 Eur. Phys. J. D 35 125Google Scholar
[25] Roy R, Condylis P C, Prakash V 2017 Sci. Rep. 7 1
[26] Hu J, Yin J 2002 J. Opt. Soc. Am. B 19 2844Google Scholar
[27] 胡建军, 印建平 2005 光学学报 25 412Google Scholar
Hu J J, Yin J P 2005 Acta Optic. Sin. 25 412Google Scholar
[28] 周锋 2018 博士学位论文 (武汉: 华中科技大学)
Zhou F 2018 Ph. D. Dissertation (Wuhan: Huazhong University of Science and Technology)(in Chinese)
[29] Pollock S, Cotter J P, Laliotis A 2011 New. J. Phys. 13 215
[30] Nshii C C, Vangeleyn M, Cotter J P, Griffin P F, Hinds E A, Ironside C. N, See P, Sinclair A G, Riis E, Arnold A. S 2013 Nat. Nanaotechnol. 8 321
[31] Mcgilligan J P, Griffin P F, Riis E, Arnold A S 2016 J. Opt. Soc. Am. B 33 6
[32] 周晟, 李沫, 赵杰, 姜伟 2017 量子信息技术与应用研讨会中国 北京 2017年6月15—16日
Zhou S, Li M, Zhao J, Jiang W 2017 Workshop on Quantum Information Technology and Applications, Beijing, China, June 15–16, 2017 (in Chinese)
[33] McGilligan J P, Griffin P F, Elvin R, Ingleby S J, Riis E, Arnold A S 2017 Sci. Rep. 7 384Google Scholar
[34] Lingxiao Z, Xuan L, Basudeb S 2020 Sci. Adv. 6 1
[35] Muller D, Anderson D Z, Grow R J, Schwindt P D, Cornell E A 1999 Phys. Rev. Lett. 83 5104
[36] Thywissena J H, Olshanii M, Zabow G, DrndiC M, Johnsonb K S, Westervelt R M, Prentiss M 1999 Eur. Phys. J. D 7 361
[37] Dekker N H, Lee C S, Lorent V, Thywissen J H, Smith S P, Drndic M, Westervelt R M, Prentiss M 2000 Phys. Rev. Lett. 84 1124Google Scholar
[38] Baker P M, Stickney J A, Squires M B, Scoville J A, Carlson E J, Buchwald W R, Miller S M 2009 Phys. Rev. A 80 063615Google Scholar
[39] Lesanovsky I, Schumm T, Hofferberth S, Andersson L M, Krüger P, Schmiedmayer J 2006 Phys. Rev. A 73 033619Google Scholar
[40] 凌云龙, 汪川, 张海潮 2020 物理学报 69 100301Google Scholar
Ling Y L, Wang C, Zhang H C 2020 Acta Phys. Sin. 69 100301Google Scholar
[41] Horne S A, Sackett C A, 2017 Rev. Sci. Instrum. 88 013102Google Scholar
[42] Esteve J, Schumm T, Trebbia J B, Bouchoule I, Aspect A, Westbrook C I 2005 Eur. Phys. J. D 35 141
[43] Hommelhoff P, Hänsel W, Steinmetz T, Hänsch T W, Reichel J 2005 New J. Phys. 7 1Google Scholar
[44] Shin Y, Sanner C, Jo G B, Pasquini T A, Saba M, Ketterle W, Pritchard D E 2005 Phys. Rev. A 72 021604Google Scholar
[45] Treutlein P, Hänsch T W, Reichel J, Negretti A, Cirone M A, Calarco T 2006 Phys. Rev. A 74 022312Google Scholar
[46] Böhi P, Riedel M F, Hoffrogge J, Reichel J, Hansch T W, Treutlein P 2009 Nat. Phys. 5 592Google Scholar
[47] Cassettari D, Hessmo B, Folman R, Maier T, Schmiedmayer J 2000 Phys. Rev. Lett. 85 5483Google Scholar
[48] Müller D, Cornell E A, Prevedelli M, Schwindt P D D, Zozulya A, Anderson D Z 2000 Opt. Lett. 25 1382Google Scholar
[49] Colombe Y, Knyazchyan E, Morizot O, Mercier B, Lorent V, Perrin H 2004 Euro. Phys. Lett. 67 593Google Scholar
[50] Levy S, Lahoud E, Shomroni I, Steinhauer J 2007 Nature 449 579Google Scholar
[51] Zobay O, Garraway B M 2001 Phys. Rev. Lett. 86 1195Google Scholar
[52] Kim S J, Yu H, Gang S T, Kim J B 2017 Appl. Phys. B 123 154
[53] Johnson K S, Chu A P, Berggren K K, Prentiss M 1996 Opt. Commun. 126 326Google Scholar
[54] Wang Y J, Anderson D Z, Bright V M, Cornell E A, Diot Q, Kishimoto T, Prentiss M, Saravanan R. A, Segal S R, Wu S 2005 Phys. Rev. Lett. 94 090405
[55] Leung V Y F, Pijn D R M, Schlatter H, Torralbo-Campo L, La Rooij A L, Mulder G B, Naber J, Soudijn M L, Tauschinsky A, Abarbanel C, Hadad B, Golan E, Folman R, Spreeuw R J C 2014 Rev. Sci. Instrum. 85 053102Google Scholar
[56] West A D, Weatherill K J, Hayward T J, Fry P W, Schrefl T G, Mike R J, Adams C S, Allwood D A, Hughes I G 2012 Nano. Lett. 12 4065
[57] Folman R, Treutlein P, Schmiedmayer J 2011 Atom Chip Fabrication. In Atom Chips (Weinheim: Reichel J, Vuletić V) p61
[58] Lloyd J R, Clement J J, 1996 Thin Solid Films 262 135
[59] Wei B Q, Vajtai R, Ajayan P M 2001 Appl. Phys. Lett. 79 1172Google Scholar
[60] Peano V, Thorwart M, Kasper A, Egger R 2005 Appl. Phys. B 81 1075
[61] Petrov P G, Machluf S, Younis S, Macaluso R, David T, Hadad B, Japha Y, Keil M, Joselevich E, Folman R 2009 Phys. Rev. A. 79 043403Google Scholar
[62] Subramaniam C, Yamada T, Kobashi K, Sekiguchi A, Futaba D N, Yumura, M, Hata K 2013 Nat. Commun. 4 2202Google Scholar
[63] 罗小嘉, 李儒, 李沫, 姜伟, 周晟, 王旺平, 陈飞良 2020 中国专利 CN109637975 A [2020-09-18]
Luo X J, Li R, Li M, Jiang W, Zhou S, Wang W P, Chen F L 2020 Chinese Patent CN109637975 A [2020-09-18] (in Chinese)
[64] Hohenester U, Eiguren A, Scheel S, Hinds E 2007 Phys. Rev. A. 76 33618Google Scholar
[65] Bernon S, Hattermann H, Bothner D, Martin K, Patrizia W, Florian J, Daniel C, Matthias K, Reinhold K, Dieter K, József F 2013 Nat. Commun. 4 1
[66] Günther A, Kemmler M, Kraft S, Vale S J, Zimmermann C, Fortagh J 2005 Phys. Rev. A. 71 063619Google Scholar
[67] Chuang H, Lin Y, Lin Y, Huang C 2014 J. Micromech. Microeng. 24 045013Google Scholar
[68] 王旺平, 李沫, 陈飞良, 周晟, 姜伟, 赵杰, 张健 2019 中国专利 CN106847715 [2019-08-20]
Wang W P, Li M, Chen F L, Zhou S, Jiang W, Zhao J, Zhang J 2019 Chinese Patent CN 106847715 [2019-08-20] (in Chinese)
[69] Jenks W G, Sadeghi S S H, Wikswo J P 1997 J. Phys. D: Appl. Phys. 30 293Google Scholar
[70] Berggren S, Palacios A 2014 Eur. Phys. J. B 87 1Google Scholar
[71] Volk M, Whitlock S, Wolff C H, Hall B V, Sidorov A I 2008 Rev. of Sci. Instr. 79 023702Google Scholar
[72] Wildermuth S, Hofferberth S, Lesanovsky I, Haller E, Andersson L M, Groth S, Bar-Joseph I, Krüger P, Schmiedmayer J 2005 Nature 435 440Google Scholar
[73] 柯敏, 2009 博士学位论文(上海: 中国科学院上海光机所)
Ke M 2009 Ph. D. Dissertation (Shanghai: Institute of Optics and Fine Mechanics, the Chinese Academy of Sciences) (in Chinese)
[74] Folman R, Krüger P, Cassettari D, Hessmo B, Maier T, Schmiedmaye J 2000 Phys. Rev. Lett. 84 4749Google Scholar
[75] Kohnen M, Succo M, Petrov P G, Nyman R A, Trupke M, Hinds E A 2010 Nature Photon. 5 35
[76] Kitching J, 2018 Appl. Phys. Rev. 5 031302Google Scholar
[77] Keil M, Amit O, Zhou S, Groswasser D, Japha Y, Folman R 2016 J. Mod. Optic. 63 1840Google Scholar
[78] Shkel A 2013 Gps World 24 8
[79] 程俊, 张敬芳, 许忻平, 蒋小军, 李晓林, 张海潮, 王育竹 2016 物理学报 65 060302Google Scholar
Cheng J, Zhang J F, Xu X P, Jiang X J, Li X L, Zhang H C, Wang Y Z 2016 Acta Phys. Sin. 65 060302Google Scholar
[80] 颜辉, 2009 博士学位论文 (武汉: 中国科学院武汉物理与数学研究所)
Yan H 2009 Ph. D. Dissertation (Wuhan: Institute of Physics and Mathematics, Chinese Academy of Sciences) (in Chinese)
[81] Schumm T, Hofferberth S, Andersson L M, Wildermuth S, Groth S, Bar-Joseph I, Schmiedmayer J, Krüger P 2005 Nat. Phys. 1 57Google Scholar
[82] Jo G B, Shin Y, Will S, Pasquini T A, Saba M, Ketterle W, Pritchard D E, Vengalattore M, Prentiss M 2006 Phys. Rev. Lett. 98 030407
[83] Wu S, Su E, Prentiss M 2007 Phys. Rev. Lett. 99 173201Google Scholar
[84] Burke J H T, Sackett C A 2009 Phys. Rev. A 80 061603Google Scholar
[85] Yan H 2012 Appl. Phys. Lett. 101 194102
[86] Muntinga H, Ahlers H, Krutzik M, Wenzlawski A, Arnold S, Becker D, Bongs K, Dittus H, Duncker H, Gaaloul N, Gherasim C, Giese E, Grzeschik C, Hänsch T W, Hellmig O, Herr W, Herrmann S, Kajari E, Kleinert S, Lämmerzahl C, Lewoczko-Adamczyk W, Malcolm J, Meyer N, Nolte R, Peters A, Popp M, Reichel J, Roura A, Rudolph J, Schiemangk M, Schneider M, Seidel S T, Sengstock K, Tamma V 2013 Phys. Rev. Lett. 110 093602Google Scholar
[87] Rudolph J, Herr W, Grzeschik C, Sternke T, Grote A, Popp M, Becker D, Müntinga H, Ahlers H, Peters A, Lammerzahl C, Sengstock K, Gaaloul N, Ertmer W, Rasel E M 2015 New. J. Phys. 17 065001Google Scholar
[88] Wu X, Zi F, Dudley J, Bilotta R J, Canoza P, Müller H 2017 Optica 4 1545Google Scholar
[89] Moan E R, Horne R A, Arpornthip T, Luo Z, Fallon A J, Berl S J, Sackett C A 2020 Phys. Rev. Lett. 124 120403Google Scholar
[90] Bongs K, Holynski M, Vovrosh J, Bouyer P, Condon G, Rasel E, Schubert C, Schleich W P, Roura A 2019 Nat. Rev. Phys. 1 731Google Scholar
[91] Abend S, Gebbe M, Gersemann M, Ahlers H, Müntinga H, Giese E, Gaaloul N, Schubert C, Lammerzahl C, Ertmer W, Schleich W P, Rasel E M 2016 Phys. Rev. Lett. 117 203003
[92] Wu X, Pagel Z, Malek B S, Nguyen T H, Zi F, Scheirer D S, Müller H 2019 Sci. Adv. 5 aax0800Google Scholar
[93] Schmiedmayer J, Folman R, Calarco T 2002 J. Mod. Optic. 49 1375Google Scholar
[94] Trupke M, Metz J, Beige A, Hinds E A 2007 J. Mod. Optic. 54 1639Google Scholar
[95] Houck A A, Türeci, Hakan E, Koch J 2012 Nat. Phys. 8 292Google Scholar
[96] La Rooij A L, Den Heuvell H B, Spreeuw R J, Spreeuw R J C 2019 Phys. Rev. A 99 2
[97] Bautista-Salvador A, Zarantonello G, Hahn H, Preciado-Grijalva A, Morgner J, Wahnschaffe M, Ospelkaus C 2019 New. J. Phys. 21 043011Google Scholar
[98] Ockeloen C F, Schmied R, Riedel M F, Treutlein P 2013 Phys. Rev. Lett. 111 143001Google Scholar
[99] Carter J D, Cherry O, Martin J D 2013 Phys. Rev. A 86 053401
[100] Riedel M, Böhi P, Li Y, Hänsch T W, Sinatra A, Treutlein P 2010 Nature 464 1170Google Scholar
[101] Aveline D C, Williams J R, Elliott E R, Dutenhoffer C, Thompson R J 2020 Nature 582 193Google Scholar
[102] Tajik M, Rauer B, Schweigler T, Cataldini F, Schmiedmayer J 2019 OPT Express 27 33474Google Scholar
[103] ()https://scienceandtechnology.jpl.nasa.gov/good-bad-and-quantum-nasa-jpl%E2%80%99 s-cold-atom-laboratory [EB/OL]. 2019-02-06
[104] Thompson R, Sengupta A, Aveline D, Kohel J [EB/OL] http://paragon.myvnc.com/TheParagon-Space/TheParagon-Space/New_Space/ScienceTheories/Cold%20 Particles-Theories.pdf
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表 1 基于原子芯片的部分应用
Table 1. Applications based on atom chips.
应用类型 应用领域 基础物理研究 国家安全 国民经济 原子陀螺仪 — 航空、航天、航海、
潜艇、导弹导航自动驾驶, 手机定位导航 原子加速度计 广义相对论等效原理验证、行星科学 航空、航天、航海、
潜艇、导弹导航自动驾驶, 手机导航 原子干涉重力仪 万有引力常数测试 导航 煤、石油、天然气等资源勘探、
地下遗迹探测、手机手势识别量子计算和量子模拟 基础量子物理问题研究 密码破译, 信息安全 高性能计算 芯片级原子钟 广义相对论等效原理验证、引力波探测、
暗物质探测、精细结构常数变化测试授时, 航空航天 地貌测绘等 芯片级原子磁力计 — 潜艇探测 矿石探测、人体健康检测 -
[1] Schmiedmayer J 1995 Phys. Rev. A 52 R13Google Scholar
[2] Schmiedmayer J 1995 Appl. Phys. B 60 169
[3] Reichel J, Hänsel W, Hänsch T 1999 Phys. Rev. Lett. 83 3398Google Scholar
[4] Hänsel W, Reichel J, Hommelhoff P, Hänsch T 2001 Phys. Rev. A 64 063607Google Scholar
[5] Fortagh J, Zimmermann C 2007 Rev. Mod. Phys. 79 235Google Scholar
[6] Eriksson S, Trupke M, Powell H F 2005 Eur. Phys. J. D 35 135
[7] Trupke M, Goldwin J, Darquié B 2007 Phys. Rev. Lett. 99 063601
[8] Helsby S, Corbari C, Ibsen M, Horak P, Kazansky P 2007 Phys. Rev. A 75 013618
[9] Mukai T, Hufnagel C, Kasper A, Meno T, Tsukada A, Semba K, Shimizu F 2007 Phys. Rev. Lett. 98 260407Google Scholar
[10] Pollock S, Cotter J, Laliotis A, Hinds E 2009 Opt. Express 17 14109
[11] 印建平 2012 原子光学: 基本概念、原理、技术及其应用 (上海: 上海交通大学出版社)
Yin J P 2012 Atomic Optics: Basic Concepts, Principles, Techniques and Their Applications (Shanghai: Shanghai Jiao Tong University Press) (in Chinese)
[12] Ketterle W, Durfee D, Stamper-Kurn D 1999 Proceedings of the International School of Physics, Varenna, Italy, April, 1999
[13] Pritchard D E 1983 Phys. Rev. Lett. 51 1336Google Scholar
[14] Cornell E A, Monroe C, Wieman C E 1991 Phys. Rev. Lett. 67 2439Google Scholar
[15] Ketterle W, Pritchard D E 1992 Phys. Rev. A 46 4051Google Scholar
[16] Petrich W, Anderson M H, Ensher J R 1995 Phys. Rev. Lett. 74 3352Google Scholar
[17] 柯敏, 李晓林, 王育竹 2005 物理学进展 25 48Google Scholar
Ke M, Li X L, Wang Y Z 2005 Progress Phys. 25 48Google Scholar
[18] Cassettari D, Chenet A, Folman R 2000 Appl. Phys. B 70 721
[19] Reichel J, Hänsel W, Hommelhoff P 2001 Appl. Phys. B 72 81
[20] Hänsel W 2000 Ph. D. Dissertation (Germany: Ludwig-Maximilians-Universität München)
[21] Weinstein J D, Libbrecht K G 1995 Phys. Rev. A 52 4004Google Scholar
[22] Folman R, Krüger P, Schmiedmayer J, Denschlag J, Henkel C 2002 Adv. Atom. Mol. Opt. Phy. 48 26
[23] Hänsel W, Reichel J, Hommelhoff P, Hänsch T W 2001 Phys. Rev. Lett. 86 608Google Scholar
[24] Long R, Rom T, Hänsel W, Hänsch T W, Reichel J 2005 Eur. Phys. J. D 35 125Google Scholar
[25] Roy R, Condylis P C, Prakash V 2017 Sci. Rep. 7 1
[26] Hu J, Yin J 2002 J. Opt. Soc. Am. B 19 2844Google Scholar
[27] 胡建军, 印建平 2005 光学学报 25 412Google Scholar
Hu J J, Yin J P 2005 Acta Optic. Sin. 25 412Google Scholar
[28] 周锋 2018 博士学位论文 (武汉: 华中科技大学)
Zhou F 2018 Ph. D. Dissertation (Wuhan: Huazhong University of Science and Technology)(in Chinese)
[29] Pollock S, Cotter J P, Laliotis A 2011 New. J. Phys. 13 215
[30] Nshii C C, Vangeleyn M, Cotter J P, Griffin P F, Hinds E A, Ironside C. N, See P, Sinclair A G, Riis E, Arnold A. S 2013 Nat. Nanaotechnol. 8 321
[31] Mcgilligan J P, Griffin P F, Riis E, Arnold A S 2016 J. Opt. Soc. Am. B 33 6
[32] 周晟, 李沫, 赵杰, 姜伟 2017 量子信息技术与应用研讨会中国 北京 2017年6月15—16日
Zhou S, Li M, Zhao J, Jiang W 2017 Workshop on Quantum Information Technology and Applications, Beijing, China, June 15–16, 2017 (in Chinese)
[33] McGilligan J P, Griffin P F, Elvin R, Ingleby S J, Riis E, Arnold A S 2017 Sci. Rep. 7 384Google Scholar
[34] Lingxiao Z, Xuan L, Basudeb S 2020 Sci. Adv. 6 1
[35] Muller D, Anderson D Z, Grow R J, Schwindt P D, Cornell E A 1999 Phys. Rev. Lett. 83 5104
[36] Thywissena J H, Olshanii M, Zabow G, DrndiC M, Johnsonb K S, Westervelt R M, Prentiss M 1999 Eur. Phys. J. D 7 361
[37] Dekker N H, Lee C S, Lorent V, Thywissen J H, Smith S P, Drndic M, Westervelt R M, Prentiss M 2000 Phys. Rev. Lett. 84 1124Google Scholar
[38] Baker P M, Stickney J A, Squires M B, Scoville J A, Carlson E J, Buchwald W R, Miller S M 2009 Phys. Rev. A 80 063615Google Scholar
[39] Lesanovsky I, Schumm T, Hofferberth S, Andersson L M, Krüger P, Schmiedmayer J 2006 Phys. Rev. A 73 033619Google Scholar
[40] 凌云龙, 汪川, 张海潮 2020 物理学报 69 100301Google Scholar
Ling Y L, Wang C, Zhang H C 2020 Acta Phys. Sin. 69 100301Google Scholar
[41] Horne S A, Sackett C A, 2017 Rev. Sci. Instrum. 88 013102Google Scholar
[42] Esteve J, Schumm T, Trebbia J B, Bouchoule I, Aspect A, Westbrook C I 2005 Eur. Phys. J. D 35 141
[43] Hommelhoff P, Hänsel W, Steinmetz T, Hänsch T W, Reichel J 2005 New J. Phys. 7 1Google Scholar
[44] Shin Y, Sanner C, Jo G B, Pasquini T A, Saba M, Ketterle W, Pritchard D E 2005 Phys. Rev. A 72 021604Google Scholar
[45] Treutlein P, Hänsch T W, Reichel J, Negretti A, Cirone M A, Calarco T 2006 Phys. Rev. A 74 022312Google Scholar
[46] Böhi P, Riedel M F, Hoffrogge J, Reichel J, Hansch T W, Treutlein P 2009 Nat. Phys. 5 592Google Scholar
[47] Cassettari D, Hessmo B, Folman R, Maier T, Schmiedmayer J 2000 Phys. Rev. Lett. 85 5483Google Scholar
[48] Müller D, Cornell E A, Prevedelli M, Schwindt P D D, Zozulya A, Anderson D Z 2000 Opt. Lett. 25 1382Google Scholar
[49] Colombe Y, Knyazchyan E, Morizot O, Mercier B, Lorent V, Perrin H 2004 Euro. Phys. Lett. 67 593Google Scholar
[50] Levy S, Lahoud E, Shomroni I, Steinhauer J 2007 Nature 449 579Google Scholar
[51] Zobay O, Garraway B M 2001 Phys. Rev. Lett. 86 1195Google Scholar
[52] Kim S J, Yu H, Gang S T, Kim J B 2017 Appl. Phys. B 123 154
[53] Johnson K S, Chu A P, Berggren K K, Prentiss M 1996 Opt. Commun. 126 326Google Scholar
[54] Wang Y J, Anderson D Z, Bright V M, Cornell E A, Diot Q, Kishimoto T, Prentiss M, Saravanan R. A, Segal S R, Wu S 2005 Phys. Rev. Lett. 94 090405
[55] Leung V Y F, Pijn D R M, Schlatter H, Torralbo-Campo L, La Rooij A L, Mulder G B, Naber J, Soudijn M L, Tauschinsky A, Abarbanel C, Hadad B, Golan E, Folman R, Spreeuw R J C 2014 Rev. Sci. Instrum. 85 053102Google Scholar
[56] West A D, Weatherill K J, Hayward T J, Fry P W, Schrefl T G, Mike R J, Adams C S, Allwood D A, Hughes I G 2012 Nano. Lett. 12 4065
[57] Folman R, Treutlein P, Schmiedmayer J 2011 Atom Chip Fabrication. In Atom Chips (Weinheim: Reichel J, Vuletić V) p61
[58] Lloyd J R, Clement J J, 1996 Thin Solid Films 262 135
[59] Wei B Q, Vajtai R, Ajayan P M 2001 Appl. Phys. Lett. 79 1172Google Scholar
[60] Peano V, Thorwart M, Kasper A, Egger R 2005 Appl. Phys. B 81 1075
[61] Petrov P G, Machluf S, Younis S, Macaluso R, David T, Hadad B, Japha Y, Keil M, Joselevich E, Folman R 2009 Phys. Rev. A. 79 043403Google Scholar
[62] Subramaniam C, Yamada T, Kobashi K, Sekiguchi A, Futaba D N, Yumura, M, Hata K 2013 Nat. Commun. 4 2202Google Scholar
[63] 罗小嘉, 李儒, 李沫, 姜伟, 周晟, 王旺平, 陈飞良 2020 中国专利 CN109637975 A [2020-09-18]
Luo X J, Li R, Li M, Jiang W, Zhou S, Wang W P, Chen F L 2020 Chinese Patent CN109637975 A [2020-09-18] (in Chinese)
[64] Hohenester U, Eiguren A, Scheel S, Hinds E 2007 Phys. Rev. A. 76 33618Google Scholar
[65] Bernon S, Hattermann H, Bothner D, Martin K, Patrizia W, Florian J, Daniel C, Matthias K, Reinhold K, Dieter K, József F 2013 Nat. Commun. 4 1
[66] Günther A, Kemmler M, Kraft S, Vale S J, Zimmermann C, Fortagh J 2005 Phys. Rev. A. 71 063619Google Scholar
[67] Chuang H, Lin Y, Lin Y, Huang C 2014 J. Micromech. Microeng. 24 045013Google Scholar
[68] 王旺平, 李沫, 陈飞良, 周晟, 姜伟, 赵杰, 张健 2019 中国专利 CN106847715 [2019-08-20]
Wang W P, Li M, Chen F L, Zhou S, Jiang W, Zhao J, Zhang J 2019 Chinese Patent CN 106847715 [2019-08-20] (in Chinese)
[69] Jenks W G, Sadeghi S S H, Wikswo J P 1997 J. Phys. D: Appl. Phys. 30 293Google Scholar
[70] Berggren S, Palacios A 2014 Eur. Phys. J. B 87 1Google Scholar
[71] Volk M, Whitlock S, Wolff C H, Hall B V, Sidorov A I 2008 Rev. of Sci. Instr. 79 023702Google Scholar
[72] Wildermuth S, Hofferberth S, Lesanovsky I, Haller E, Andersson L M, Groth S, Bar-Joseph I, Krüger P, Schmiedmayer J 2005 Nature 435 440Google Scholar
[73] 柯敏, 2009 博士学位论文(上海: 中国科学院上海光机所)
Ke M 2009 Ph. D. Dissertation (Shanghai: Institute of Optics and Fine Mechanics, the Chinese Academy of Sciences) (in Chinese)
[74] Folman R, Krüger P, Cassettari D, Hessmo B, Maier T, Schmiedmaye J 2000 Phys. Rev. Lett. 84 4749Google Scholar
[75] Kohnen M, Succo M, Petrov P G, Nyman R A, Trupke M, Hinds E A 2010 Nature Photon. 5 35
[76] Kitching J, 2018 Appl. Phys. Rev. 5 031302Google Scholar
[77] Keil M, Amit O, Zhou S, Groswasser D, Japha Y, Folman R 2016 J. Mod. Optic. 63 1840Google Scholar
[78] Shkel A 2013 Gps World 24 8
[79] 程俊, 张敬芳, 许忻平, 蒋小军, 李晓林, 张海潮, 王育竹 2016 物理学报 65 060302Google Scholar
Cheng J, Zhang J F, Xu X P, Jiang X J, Li X L, Zhang H C, Wang Y Z 2016 Acta Phys. Sin. 65 060302Google Scholar
[80] 颜辉, 2009 博士学位论文 (武汉: 中国科学院武汉物理与数学研究所)
Yan H 2009 Ph. D. Dissertation (Wuhan: Institute of Physics and Mathematics, Chinese Academy of Sciences) (in Chinese)
[81] Schumm T, Hofferberth S, Andersson L M, Wildermuth S, Groth S, Bar-Joseph I, Schmiedmayer J, Krüger P 2005 Nat. Phys. 1 57Google Scholar
[82] Jo G B, Shin Y, Will S, Pasquini T A, Saba M, Ketterle W, Pritchard D E, Vengalattore M, Prentiss M 2006 Phys. Rev. Lett. 98 030407
[83] Wu S, Su E, Prentiss M 2007 Phys. Rev. Lett. 99 173201Google Scholar
[84] Burke J H T, Sackett C A 2009 Phys. Rev. A 80 061603Google Scholar
[85] Yan H 2012 Appl. Phys. Lett. 101 194102
[86] Muntinga H, Ahlers H, Krutzik M, Wenzlawski A, Arnold S, Becker D, Bongs K, Dittus H, Duncker H, Gaaloul N, Gherasim C, Giese E, Grzeschik C, Hänsch T W, Hellmig O, Herr W, Herrmann S, Kajari E, Kleinert S, Lämmerzahl C, Lewoczko-Adamczyk W, Malcolm J, Meyer N, Nolte R, Peters A, Popp M, Reichel J, Roura A, Rudolph J, Schiemangk M, Schneider M, Seidel S T, Sengstock K, Tamma V 2013 Phys. Rev. Lett. 110 093602Google Scholar
[87] Rudolph J, Herr W, Grzeschik C, Sternke T, Grote A, Popp M, Becker D, Müntinga H, Ahlers H, Peters A, Lammerzahl C, Sengstock K, Gaaloul N, Ertmer W, Rasel E M 2015 New. J. Phys. 17 065001Google Scholar
[88] Wu X, Zi F, Dudley J, Bilotta R J, Canoza P, Müller H 2017 Optica 4 1545Google Scholar
[89] Moan E R, Horne R A, Arpornthip T, Luo Z, Fallon A J, Berl S J, Sackett C A 2020 Phys. Rev. Lett. 124 120403Google Scholar
[90] Bongs K, Holynski M, Vovrosh J, Bouyer P, Condon G, Rasel E, Schubert C, Schleich W P, Roura A 2019 Nat. Rev. Phys. 1 731Google Scholar
[91] Abend S, Gebbe M, Gersemann M, Ahlers H, Müntinga H, Giese E, Gaaloul N, Schubert C, Lammerzahl C, Ertmer W, Schleich W P, Rasel E M 2016 Phys. Rev. Lett. 117 203003
[92] Wu X, Pagel Z, Malek B S, Nguyen T H, Zi F, Scheirer D S, Müller H 2019 Sci. Adv. 5 aax0800Google Scholar
[93] Schmiedmayer J, Folman R, Calarco T 2002 J. Mod. Optic. 49 1375Google Scholar
[94] Trupke M, Metz J, Beige A, Hinds E A 2007 J. Mod. Optic. 54 1639Google Scholar
[95] Houck A A, Türeci, Hakan E, Koch J 2012 Nat. Phys. 8 292Google Scholar
[96] La Rooij A L, Den Heuvell H B, Spreeuw R J, Spreeuw R J C 2019 Phys. Rev. A 99 2
[97] Bautista-Salvador A, Zarantonello G, Hahn H, Preciado-Grijalva A, Morgner J, Wahnschaffe M, Ospelkaus C 2019 New. J. Phys. 21 043011Google Scholar
[98] Ockeloen C F, Schmied R, Riedel M F, Treutlein P 2013 Phys. Rev. Lett. 111 143001Google Scholar
[99] Carter J D, Cherry O, Martin J D 2013 Phys. Rev. A 86 053401
[100] Riedel M, Böhi P, Li Y, Hänsch T W, Sinatra A, Treutlein P 2010 Nature 464 1170Google Scholar
[101] Aveline D C, Williams J R, Elliott E R, Dutenhoffer C, Thompson R J 2020 Nature 582 193Google Scholar
[102] Tajik M, Rauer B, Schweigler T, Cataldini F, Schmiedmayer J 2019 OPT Express 27 33474Google Scholar
[103] ()https://scienceandtechnology.jpl.nasa.gov/good-bad-and-quantum-nasa-jpl%E2%80%99 s-cold-atom-laboratory [EB/OL]. 2019-02-06
[104] Thompson R, Sengupta A, Aveline D, Kohel J [EB/OL] http://paragon.myvnc.com/TheParagon-Space/TheParagon-Space/New_Space/ScienceTheories/Cold%20 Particles-Theories.pdf
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