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Books on the topic 'Quantum optics and quantum optomechanics'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

service), SpringerLink (Online, ed. Exploring Macroscopic Quantum Mechanics in Optomechanical Devices. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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2

Monsel, Juliette. Quantum Thermodynamics and Optomechanics. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-54971-8.

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3

Walls, D. F. Quantum optics. Berlin: Springer, 1994.

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4

Scully, Marlan O. Quantum optics. Cambridge: Cambridge University Press, 1997.

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5

J, Milburn G., ed. Quantum optics. Berlin: Springer-Verlag, 1995.

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6

Walls, D. F. Quantum optics. 2nd ed. Berlin: Springer, 2008.

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7

Walls, D. F. Quantum optics. 2nd ed. Berlin: Springer, 2008.

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8

Garrison, John C. Quantum optics. Oxford: Oxford University Press, 2008.

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9

Meystre, Pierre. Quantum Optics. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-76183-7.

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10

Orszag, Miguel. Quantum Optics. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/978-3-662-04114-7.

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11

Orszag, Miguel. Quantum Optics. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-29037-9.

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12

Walls, D. F., and G. J. Milburn. Quantum Optics. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-642-79504-6.

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13

Walls, D. F., and Gerard J. Milburn, eds. Quantum Optics. Berlin, Heidelberg: Springer Berlin Heidelberg, 2008. http://dx.doi.org/10.1007/978-3-540-28574-8.

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14

Peter, Knight, ed. Introductory quantum optics. Cambridge, UK: Cambridge University Press, 2005.

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15

Walls, Dan F., and John D. Harvey, eds. Quantum Optics VI. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-642-79101-7.

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16

Harvey, John D., and Daniel F. Walls, eds. Quantum Optics IV. Berlin, Heidelberg: Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-71407-8.

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17

Harvey, John D., and Daniel F. Walls, eds. Quantum Optics V. Berlin, Heidelberg: Springer Berlin Heidelberg, 1989. http://dx.doi.org/10.1007/978-3-642-74951-3.

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18

Ataç, İmamoğlu, ed. Mesoscopic quantum optics. New York: John Wiley, 1999.

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19

David, Petrosyan, ed. Fundamentals of quantum optics and quantum information. Berlin: Springer, 2007.

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20

Exploring Macroscopic Quantum Mechanics In Optomechanical Devices. Springer, 2012.

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21

Generalized Optomechanics And Its Applications Quantum Optical Properties Of Generalized Optomechanical Systems. World Scientific Publishing Company, 2013.

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22

Busch, Kurt, and Wolfram Pernice. Nano-Optomechanics: Principles and Applications. de Gruyter GmbH, Walter, 2050.

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23

Busch, Kurt, and Wolfram Pernice. Nano-Optomechanics: Principles and Applications. de Gruyter GmbH, Walter, 2050.

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24

Nano-Optomechanics: Principles and Applications. de Gruyter GmbH, Walter, 2015.

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25

Miao, Haixing. Exploring Macroscopic Quantum Mechanics in Optomechanical Devices. Springer, 2012.

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26

Haixing, Miao, and Haixing Miao. Exploring Macroscopic Quantum Mechanics in Optomechanical Devices. Springer Berlin / Heidelberg, 2014.

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27

Quantum Optomechanics. Taylor & Francis Group, 2020.

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28

Quantum Optomechanics. Taylor & Francis Group, 2015.

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29

Milburn, Gerard J., and Warwick P. Bowen. Quantum Optomechanics. Taylor & Francis Group, 2015.

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30

Milburn, Gerard J., and Warwick P. Bowen. Quantum Optomechanics. Taylor & Francis Group, 2015.

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31

Bowen, Warwick P. Quantum Optomechanics. CRC Press, 2015. http://dx.doi.org/10.1201/b19379.

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32

Monsel, Juliette. Quantum Thermodynamics and Optomechanics. Springer International Publishing AG, 2020.

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33

Cohadon, Pierre-François, Jack Harris, Florian Marquardt, and Leticia Cugliandolo, eds. Quantum Optomechanics and Nanomechanics. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198828143.001.0001.

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Abstract:
The Les Houches Summer School 2015 covered the emerging fields of cavity optomechanics and quantum nanomechanics. Optomechanics is flourishing and its concepts and techniques are now applied to a wide range of topics. Modern quantum optomechanics was born in the late 70s in the framework of gravitational wave interferometry, initially focusing on the quantum limits of displacement measurements. Carlton Caves, Vladimir Braginsky, and others realized that the sensitivity of the anticipated large-scale gravitational-wave interferometers (GWI) was fundamentally limited by the quantum fluctuations of the measurement laser beam. After tremendous experimental progress, the sensitivity of the upcoming next generation of GWI will effectively be limited by quantum noise. In this way, quantum-optomechanical effects will directly affect the operation of what is arguably the world’s most impressive precision experiment. However, optomechanics has also gained a life of its own with a focus on the quantum aspects of moving mirrors. Laser light can be used to cool mechanical resonators well below the temperature of their environment. After proof-of-principle demonstrations of this cooling in 2006, a number of systems were used as the field gradually merged with its condensed matter cousin (nanomechanical systems) to try to reach the mechanical quantum ground state, eventually demonstrated in 2010 by pure cryogenic techniques and a year later by a combination of cryogenic and radiation-pressure cooling. The book covers all aspects—historical, theoretical, experimental—of the field, with its applications to quantum measurement, foundations of quantum mechanics and quantum information. Essential reading for any researcher in the field.
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34

Monsel, Juliette. Quantum Thermodynamics and Optomechanics. Springer International Publishing AG, 2021.

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35

Tiwari, Sandip. Electromagnetic-matter interactions and devices. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198759874.003.0006.

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Abstract:
This chapter explores electromagnetic-matter interactions from photon to extinction length scales, i.e., nanometer of X-ray and above. Starting with Casimir-Polder effect to understand interactions of metals and dielectrics at near-atomic distance scale, it stretches to larger wavelengths to explore optomechanics and its ability for energy exchange and signal transduction between PHz and GHz. This range is explored with near-quantum sensitivity limits. The chapter also develops the understanding phononic bandgaps, and for photons, it explores the use of energetic coupling for useful devices such as optical tweezers, confocal microscopes and atomic clocks. It also explores miniature accelerators as a frontier area in accelerator physics. Plasmonics—the electromagnetic interaction with electron charge cloud—is explored for propagating and confined conditions together with the approaches’ possible uses. Optoelectronic energy conversion is analyzed in organic and inorganic systems, with their underlying interaction physics through solar cells and its thermodynamic limit, and quantum cascade lasers.
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36

Stuhler, Jurgen, and Andrew J. Shields. Quantum Optics. SPIE, 2016.

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37

Scully, Marlan O. Quantum optics. Cambridge University Press, 1996.

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38

Quantum Optics. 3rd ed. Wiley-VCH, 2006.

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39

Opt.Vol.33.No.4. Quantum Optics. Taylor & Francis Ltd, 1986.

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40

Quantum Optics. Wiley & Sons, Incorporated, John, 2006.

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41

Agarwal, G. S. Quantum optics. 2012.

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42

McCartney. Quantum Optics. Oryson Press, 2023.

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43

Zubairy, M. Suhail, and Marlan O. Scully. Quantum Optics. Cambridge University Press, 1997.

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44

Garrison, John, and Raymond Chiao. Quantum Optics. Oxford University Press, Incorporated, 2008.

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45

Agarwal, Girish S. Quantum Optics. Cambridge University Press, 2012.

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46

Agarwal, Girish S. Quantum Optics. Cambridge University Press, 2012.

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47

Milburn, Gerard J., and D. F. Walls. Quantum Optics. Springer London, Limited, 2007.

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48

Milburn, G. J., and D. F. Walls. Quantum Optics. Springer, 2012.

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49

Agarwal, Girish S. Quantum Optics. Cambridge University Press, 2012.

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50

Milburn, Gerard J., and D. F. Walls. Quantum Optics. Springer, 2010.

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