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Książki na temat „Superconducting quantum devices”

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Data publikacji: 6 września 2023

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1

Hadfield, Robert H., i Göran Johansson, red. Superconducting Devices in Quantum Optics. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-24091-6.

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2

1939-, Barone Antonio, red. Principles and applications of superconducting quantum interference devices. Singapore: World Scientific, 1992.

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3

1934-, Weinstock Harold, i NATO Advanced Study Institute on SQUID Sensors: Fundamentals, Febrication, and Appliations (1995 : Acquafredda di Maratea, Italy), red. SQUID sensors: Fundamentals, fabrication, and applications. Dordrecht: Kluwer Academic Publishers, 1996.

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4

1930-, Hahlbohm H. D., i Lübbig H. 1932, red. SQUID '85, superconducting quantum interference devices and their applications: Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), June 25-28, 1985. Berlin: W. de Gruyter, 1985.

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5

Keene, Mark Nicholas. The electrical and magnetic properties of superconducting quantum interference devices. Birmingham: University of Birmingham, 1988.

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6

J, Clarke, i Braginski A. I, red. The SQUID handbook. Weinheim: Wiley-VCH, 2004.

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7

L, Kautz R., i National Institute of Standards and Technology (U.S.), red. SQUIDs past, present, and future: A symposium in honor of James E. Zimmerman. Gaithersburg, MD: U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2000.

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8

Harrop, Sean Patrick. Magnetic noise properties of ceramic high temperature superconducting quantum interference devices. Birmingham: University of Birmingham, 1991.

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9

Vleeming, Bertus Johan. The four-terminal SQUID. [Leiden: University of Leiden, 1998.

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10

Francesco, De Martini, Denardo G. 1935-, Zeilinger Anton, International Centre for Theoretical Physics., International Atomic Energy Agency i Unesco, red. Proceedings of the Adriatico Workshop on Quantum Interferometry: 2-5 March 1993, Trieste, Italy. Singapore: World Scientific, 1994.

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11

Kunze, Ulrich. Quanteninterferenz-Feldeffekttransistoren, Bauelemente für die Nanometer-Integration? Mainz: Akademie der Wissenschaften und der Literatur, 1987.

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12

Saini, Kulbir. Squid Proxy Server 3.1: Beginner's guide. Birmingham, UK: Packt Open Source Pub., 2011.

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13

Zhao, Xinwei (Professor in Nanoscience) i Fu Guangsheng, red. Di wei liang zi qi jian wu li. Beijing: Ke xue chu ban she, 2012.

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14

Nakano, Hiroshi. DC-SQUIDs fabricated by shapes of sputtering deposition at step edge and anodic oxidization. Fukuoka, Japan: [Kyushu University Research Institute of Fundamental Information Science, 1986.

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15

A, Reed Mark, Kirk Wiley P i International Symposium on Nanostructure Physics and Fabrication (1st : 1989 : Texas A&M University), red. Nanostructure physics and fabrication: Proceedings of the international symposium, College Station, Texas, March 13-15, 1989. Boston: Academic Press, 1989.

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16

Miller, Richard Kendall. Survey on SQUID sensors. Madison, GA: Future Technology Surveys, 1989.

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17

Kromann, Rasmus. Deposition, characterization, and electronic applications of YBa2Cu3O7 thin films. Roskilde: Risø National Laboratory, 1992.

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18

A, Buhrman Robert, i Society of Photo-optical Instrumentation Engineers., red. Superconductive devices and circuits: 25-27 January 1994, Los Angeles, California. Bellingham, Wash: SPIE, 1994.

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19

Gallop, J. C. SQUIDS, the Josephson effects and superconducting electronics. Bristol, England: Adam Hilger, 1991.

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20

International, Symposium on Weak Superconductivity (7th 1994 Bratislava Slovak Republic). Proceedings of the Seventh International Symposium on Weak Superconductivity, June 6-10, 1994, Smolenice Castle, Slovak Republic. Bratislava, Slovak Republic: Dept. of Cryoelectronics, Institute of Electrical Engineering, 1994.

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21

Š, Beňačka, Darula M i Kedro M, red. Proceedings of the Sixth International Symposium on Weak Superconductivity, Smolenice, Czechoslovakia, 20-24 May 1991. Singapore: World Scientific, 1991.

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22

International Symposium on Quantum Confinement (2nd 1994 San Francisco, Calif.). Proceedings of the Second International Symposium on Quantum Confinement: Physics and applications. Redaktor Cahay M. Pennington, NJ: Electrochemcial Society, 1994.

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23

Moriond Workshop (14th 1994 Villars-sur-Ollon, Switzerland). Coulomb and interference effects in small electronic structures: Proceedings of the XXIXth Rencontre de Moriond, series: Moriond condensed matter physics, Villars sur Ollon, Switzerland, January 22-29, 1994. Gif-sur-Yvette, France: Editions Frontieres, 1994.

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24

Van, Tran J. Thanh, Fontaine G i Hinds E, red. Particle astrophysics atomic physics and gravitation: Proceedings of the XXIXth Rencontre de Moriond, Villars sur Ollon, Switzerland, January 22-29, 1994. Gif-sur-Yvette, France: Editiones Frontières, 1994.

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25

1931-, Gotō Eiichi, red. Quantum flux parametron: A single quantum flux superconducting logic device. Singapore: World Scientific, 1991.

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26

I, Ozhogin V., red. Sverkhchuvstvitelʹnai͡a︡ magnitometrii͡a︡ i biomagnetizm. Moskva: "Nauka," Glav. red. fiziko-matematicheskoĭ lit-ry, 1986.

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27

Hadfield, Robert, i Göran Johansson. Superconducting Devices in Quantum Optics. Springer, 2018.

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28

Hadfield, Robert, i Göran Johansson. Superconducting Devices in Quantum Optics. Springer London, Limited, 2015.

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29

Hadfield, Robert H., i Goran Johansson. Superconducting Devices in Quantum Optics. Springer International Publishing AG, 2016.

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30

Grove-Rasmussen, K. Hybrid Superconducting Devices Based on Quantum Wires. Redaktor A. V. Narlikar. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.013.16.

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This article reviews the experimental progress in hybrid superconducting devices based on quantum wires, in the form of semiconductor nanowires or carbon nanotubes, which are coupled to superconducting electrodes. It also presents a series of recent examples which illustrate the key phenomena that have allowed detailed investigations of important scenarios, including individual impurities on superconductors and proximitized systems that may hold Majorana quasiparticles. After describing experimental aspects of hybrid devices, including materials and fabrication techniques, the article considers superconducting junctions with normal quantum dots (QDs). It then turns to experiments on superconductivity-enhanced QD spectroscopy, sub-gap states in hybrid QDs, and non-local signals in Cooper pair splitter devices. Finally, it discusses the growth of epitaxial semiconductor–superconductor nanowire hybrids.
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31

Hahlbohm, Hans. Squid '85: Superconducting Quantum Interference Devices and Their Applications : Proceedings (International Conference on Superconducting Quantum Devices//S ... Interference Devices and Their Applications). Walter De Gruyter Inc, 1985.

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32

Barone, Antonio. Principles and Applications of Superconducting Quantum Interference Devices. WORLD SCIENTIFIC, 1992. http://dx.doi.org/10.1142/1607.

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33

Blamire, M. G., i J. W. A. Robinson. Superconducting Spintronics and Devices. Redaktor A. V. Narlikar. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.013.14.

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This article reviews the current status of superconducting spintronics and devices, with particular emphasis on the critical issues and developments needed for their application to low-power quantum computing. It first provides an overview of conventional spintronics before discussing the rationale for superconducting spintronics. It then considers the proximity effects and Josephson junctions in superconductor-ferromagnet heterostructures, along with spin transport in the superconducting state. It also examines the issue of memory in superconducting spintronics, especially with respect to reading and writing magnetic data via superconducting states, and how to generate memory logic in such devices. Finally, it evaluates the potential application of superconductor-ferromagnetic insulator devices as thermoelectric systems in low-temperature electronic circuits.
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34

Hahlbohm, Hans-D., i Heinz Lübbig, red. SQUID '85 Superconducting Quantum Interference Devices and their Applications. De Gruyter, 1986. http://dx.doi.org/10.1515/9783110862393.

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35

Cole, Frederick. Superconducting quantum interference devices (squids) and their biomagnetic applications. 1985.

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36

Weinstock, H. SQUID Sensors. Springer, 2014.

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37

Weinstock, H. SQUID Sensors: Fundamentals, Fabrication and Applications. Springer, 1996.

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38

Hahlbohm, Hans-D., i Heinz Lübbig. SQUID - Superconducting Quantum Interference Devices and Their Applications: Proceedings of the International Conference on Superconducting Quantum Devices, Berlin , October 4-8 1976. de Gruyter GmbH, Walter, 2019.

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39

Martini, F. De, G. Denardo i A. Zeiliger. Quantum Interferometry. World Scientific Pub Co Inc, 1993.

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40

SQUID '85, superconducting quantum interference devices and their applications: Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), June 25-28, 1985. W. de Gruyter, 1985.

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41

Gallop, J. C. SQUIDs, the Josephson Effects and Superconducting Electronics. Taylor & Francis Group, 2017.

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42

Hahlbohm, Hans-D., i Heinz Lübbig. SQUID '85 Superconducting Quantum Interference Devices and Their Applications: Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin , June 25-28 1985. de Gruyter GmbH, Walter, 2012.

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43

Hahlbohm, H. D., i H. Lübbig. SQUID '80. Superconducting Quantum Interference Devices and Their Applications: Proceedings of the Second International Conference on Superconducting Quantum Devices, Berlin , May 6-9 1980. de Gruyter GmbH, Walter, 2019.

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44

Clarke, John, i Alex I. Braginski. SQUID Handbook: Applications of SQUIDs and SQUID Systems. Wiley & Sons, Incorporated, John, 2006.

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45

(Editor), John Clarke, i Alex I. Braginski (Editor), red. The SQUID Handbook: Set. Wiley-VCH, 2006.

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46

John, Clarke, i Alex I. Braginski. SQUID Handbook: Applications of SQUIDs and SQUID Systems. Wiley & Sons, Limited, John, 2006.

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47

The SQUID handbook. Weinheim: Wiley-VCH, 2004.

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48

Clarke, John, i Alex I. Braginski. The SQUID Handbook: Fundamentals and Technology of SQUIDs and SQUID Systems. Wiley-VCH, 2004.

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49

(Editor), John Clarke, i Alex I. Braginski (Editor), red. The SQUID Handbook: Applications of SQUIDs and SQUID Systems. Wiley-VCH, 2006.

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50

Gallop, J., i L. Hao. Superconducting Nanodevices. Redaktor A. V. Narlikar. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.013.17.

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This article reviews recent progress in superconducting nanodevices, with particular emphasis on fabrication methods developed for superconducting nanowires and nanoscale Josephson junctions based on different barrier materials. It evaluates the future potential of superconducting nanodevices, including nano-superconducting quantum interference devices (nanoSQUIDs), in light of improvements in nanoscale fabrication and manipulation techniques, along with their likely impacts on future quantum technology and measurement. The article first considers efforts to realize devices at the physical scale of 100 nm and below before discussing different types of Josephson junction such as trilayer junctions. It also describes the use of focused ion beam milling and electron beam lithography techniques for junction fabrication at the nanoscale and the improved energy sensitivity detectable with a nanoSQUID. Finally, it looks at a range of applications for nanoSQUIDs, superconducting single photon detectors, and other superconducting nanodevices.
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