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Books on the topic 'Photone'

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Published: 30 May 2022
Last updated: 31 May 2022

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1

Grimes, Dale M. Photon creation - annihilation: Continuum electromagnetic theory. Singapore: World Scientific, 2012.

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2

Photon Correlation & Scattering Topical Meeting (1996 Capri, Italy). Photon correlation & scattering: Summaries of the papers presented at the topical meeting, August 21-24, 1996, Capri, Italy. Washington, DC: Optical Society of America, 1996.

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3

Photon Correlation and Scattering: Theory and Applications Topical Meeting (1992 Boulder, Colo.). Photon correlation and scattering: Theory and applications : summaries of papers presented at the Photon Correlation and Scattering, Theory and Applications Topical Meeting, August 24-26, 1992, Boulder, Colorado. Washington, DC: The Society, 1992.

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4

J, Schanda, Lippényi T, International Measurement Confederation, Society of Photo-optical Instrumentation Engineers. Hungarian Chapter., and Méréstechnikai és Automatizálási Tudományos Egyesület (Hungary), eds. 14th Symposium on Photonic Measurements: 1-3 June 1992, Sopron, Hungary. Bellingham, Wash., USA: SPIE, 1993.

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5

The partonic structure of the photon: Photoproduction at the lepton-proton collider, HERA. Berlin: Springer, 1997.

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6

Russia) Alexander Gurwitsch Conference (2nd 1999 Moscow. Biophotonics and coherent systems: Proceedings of the 2nd Alexander Gurwitsch Conference, and additional contributions. Moscow: Moscow University Press, 2000.

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7

Potential applications of concentrated solar photons: A report prepared by the Committee on Potential Applications of Concentrated Solar Photons, Energy Engineering Board, Commission on Engineering and Technical Systems, National Research Council. Washington, D.C: National Academy Press, 1991.

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8

Eodice, Lynne. Photos that inspire photo workshop. Hoboken, N.J: Wiley, 2007.

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9

Photos that inspire photo workshop. Hoboken, N.J: Wiley, 2007.

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10

Angelini, Angelo. Photon Management Assisted by Surface Waves on Photonic Crystals. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50134-5.

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11

Hansen, Cyndi. Photo Works: Transfer Photos to Fabric. Fort Worth, TX, USA: Design Originals, 1997.

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12

Lum, Ken. Photo-mirrors =: Photos-miroirs = foto-espelhos. [Banff, Alberta, Canada]: Banff Centre for the Arts, 1998.

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13

Feynman, Richard Phillips. Photon-hadron interactions. Redwood City, Calif: Addison-Wesley Pub. Co., Advanced Book Program, 1989.

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14

Adriaan, Buijs, Erné Frits C, and International Workshop on Gamma-Gamma Collisions (11th : 1997 : Netherlands), eds. Photon '97: Incorporating the XIth International Workshop on Gamma-Gamma Collisions, Egmond aan Zee, The Netherlands, 10-15 May, 1997. Singapore: World Scientific, 1998.

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15

Photon 2000 (2000 Ambleside, England). Photon 2000: International Conference on the Structure and Interactions of the Photon, Ambleside, England, 26-31 August 2000. Edited by Finch A. J. Melville, N.Y: American Institute of Physics, 2001.

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16

Bidner, Jenni. Great photos with the Advanced Photo System. Rochester, NY: Kodak Books, 1996.

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17

Larish, John J. Photo CD: Quality photos at your fingertips. Torrance, CA: Micro Publishing Press, 1994.

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18

Paul, Harry. Photonen. Wiesbaden: Vieweg+Teubner Verlag, 1999. http://dx.doi.org/10.1007/978-3-322-90681-6.

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19

Paul, Harry. Photonen. Wiesbaden: Vieweg+Teubner Verlag, 1985. http://dx.doi.org/10.1007/978-3-663-01962-6.

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20

Hentschel, Klaus. Photons. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-95252-9.

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21

Paul, Harry. Photonen. Wiesbaden: Vieweg+Teubner Verlag, 1995. http://dx.doi.org/10.1007/978-3-322-96700-8.

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22

Quantum mechanics in a nutshell. Princeton, N.J: Princeton University Press, 2009.

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23

Ohtsu, Motoichi. Dressed Photons. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-39569-7.

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24

Torres, Juan P., and Lluis Torner, eds. Twisted Photons. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2011. http://dx.doi.org/10.1002/9783527635368.

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25

author, Bortz Fred 1944, ed. Understanding photons. New York: Cavendish Square, 2016.

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26

A, Courau, and Kessler P. 1926-, eds. VIIth International Workshop on Photon-Photon Collisions. Singapore: World Scientific, 1986.

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27

International Workshop on Photon-Photon Collisions. (8th 1988 Shoresh, Jerusalem Hills, Israel). VIIIth International Workshop on Photon-Photon Collisions. Edited by Karshon Uri. Singapore: World Scientific, 1988.

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28

1973-, McRee Livia, ed. Photo crafts sourcebook: Projects and ideas for making photos fun. Gloucester, Mass: Rockport Publishers, 2003.

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29

Vossebeld, Joost Herman. Dijet photoproduction at high transverse energies. [Amsterdam: s.n.], 1999.

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30

1935-, Belousov L. V., Voeĭkov V. L, and Martynyuk V. S, eds. Biophotonics and coherent systems in biology. New York, NY: Springer, 2007.

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31

1920-, Vigier Jean-Pierre, and Roy Sisir, eds. The enigmatic photon. Dordrecht: Kluwer Academic Publishers, 1994.

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32

Segebade, Christian. Photon activation analysis. Berlin: W. de Gruyter, 1987.

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33

1950-, Becker W., Society of Photo-optical Instrumentation Engineers., Boston Electronics Corporation, and Becker & Hickl., eds. Advanced photon counting techniques: 1-3 October, 2006, Boston, Massachusetts, USA. Bellingham, Wash: SPIE, 2006.

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34

Becker, Wolfgang. Advanced Time-Correlated Single Photon Counting Techniques. Springer, 2008.

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35

Becker, Wolfgang. Advanced Time-Correlated Single Photon Counting Techniques. Springer, 2010.

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36

Advanced Time-Correlated Single Photon Counting Techniques. Springer, 2005.

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37

Engelbreit, Mary. Photos: Photo Album. Andrews McMeel Pub, 1999.

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38

America, Optical Society of, ed. Photon correlation and scattering: August 21-23, 2000 : Westin Resort and Spa, Whistler, British Columbia, Canada. Washington, DC: Optical Society of America, 2000.

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39

Photon Correlation and Scattering: Boulder, Co. August 24-26, 1991 (Technical digest series). Optical Society of Amer, 1992.

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40

Levin, Frank S. Interference Phenomena: Exploring the Essential Mystery. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198808275.003.0012.

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Chapter 11 introduces the essential mystery of quantum mechanics, shows how it is resolved, and then goes on to examine related phenomena. The mystery is how individual photons, not electromagnetic waves, can give rise to the interference pattern seen in the two-slit experiment. They are shown to do so because the relevant quantum amplitude is a linear combination of two terms, leading to the pattern when neither slit is identified as the one the photon went through, but collapsing to one term and no pattern if the slit is identified. Similar results are shown to occur when individual electrons are incident on the two slits, and when large molecules, which have de Broglie wavelengths, are scattered by diffraction gratings. Many other interference experiments are described, including those where a photon was shown to be in two places simultaneously and one where a photon displayed both wave and particle features.
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41

Shore, Bruce W. Our Changing Views of Photons. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198862857.001.0001.

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This book describes the changing views of the physics community toward photons, and how photons are viewed today in several contexts. The first portion, a ninechapter Memoir with few equations and many definitions, explains the changing view of physicists toward radiation and its wave-particle photons, written for those with interest but possibly without technical background. It gives operational definitions that have been used for photons and their association with quantum-state manipulations that include Quantum Information, astronomical sources and crowds of photons, the boxed fields of cavity Quantum Electrodynamics It defines, qualitatively, the historical photons of Planck, Einstein, Compton, and Bohr, the later photons of Dirac, Feynman, and Glauber, and the photon constituents of the Standard Model of Particle Physics. It points to contemporary photons as causers of change to atoms, as carriers of messages, and as subject to controllable creation and alteration. A second portion, of three tutorial appendices, explains the mathematical background of quantum theory and radiation needed by those whose profession involves photonics and who therefore want more detailed understanding of the Memoir portion: quantum theory and the Schrodinger equation for quantum-state manipulation; Maxwell equations for electromagnetism with wave modes that become photons through a quantization postulate, possibly exhibiting quantum entanglement; and the coupling of atoms and fields to create quasiparticles that are seen as slow and stored light pulses. As with other Memoirs, the present book has idiosyncrasies of the author. Most notably, on the opening page of each chapter, and at the end of the book, is a cartoon drawn by the author, as a grad student, that reflects the changing views of a PhD aspirant toward the grad school experience as he progressed through the graduate school of MIT in the 1950s.
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42

Gimelli, Alessia, and Riccardo Liga. Basic principles and technological state of the art: SPECT. Edited by Philipp Kaufmann. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198784906.003.0119.

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Single-photon emission computed tomography (SPECT) photons as a medical imaging technique detects the radiation emitted by radioisotopes injected into the body to provide in vivo measurements of regional tissue function. From its introduction in the cardiologic clinical field, nuclear imaging has classically represented the reference technique for the non-invasive evaluation of myocardial perfusion, becoming the most frequently performed imaging modality for the functional assessment of patients with ischaemic heart disease.
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43

1929-, Pike E. R., Walther H. 1935-, and United States. Office of Naval Research., eds. Photons and quantum fluctuations. Bristol, England: Hilger, 1988.

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44

Frank, Wyrowski, Society of Photo-optical Instrumentation Engineers., and European Optical Society (Great Britain), eds. Photon management: 27-28 April, 2004, Strasbourg, France. Bellingham, Wash: SPIE, 2004.

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45

Migdall, Alan, Sergey V. Polyakov, Jingyun Fan, and Joshua C. Bienfang. Single-Photon Generation and Detection: Physics and Applications. Elsevier Science & Technology Books, 2013.

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46

Sheridan, John, and Frank Wyrowski. Photon Management II: 3-4 April, 2006, Strasbourg, France. SPIE, 2006.

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47

K, Busch, ed. Photonic crystals: Advances in design, fabrication, and characterization. Weinheim: Wiley-VCH, 2004.

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48

Wright, A. G. Why photomultipliers? Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.003.0001.

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Photon detectors transform information, carried by light, to an electrical analogue. Signals contain information on the time of occurrence and the intensity in terms of the number of photons involved. Photon rates may be constant with time, slowly varying, or transient in the form of pulses. The time response is specified in terms of some property of the pulse shape, such as its rise time, or it may be expressed in terms of bandwidth. Light detector applications fall into two categories: imaging and non-imaging; however, only the latter are considered. Detectors can be further divided into vacuum and solid state devices. Vacuum devices include photomultipliers (PMTs), microchannel plate PMTs (MCPPMTs), and hybrid devices in which a silicon device replaces the discrete dynode multiplier. PIN diodes, avalanche photodiodes (APDs), pixelated silicon PMTs (SiPMs), and charge-coupled devices (CCDs) are examples of solid state light detectors.
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49

Wright, A. G. Signal-induced background. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.003.0011.

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Signal-induced background has a time dependence that distinguishes it from the sources discussed in Chapter 6. These events refer to a progression in which a signal generates a subsequent one, correlated in time to the initial detection. The timescale for correlated background ranges from nanoseconds to days. The earliest signal is a prepulse generated by a photon incident on d1. Late pulses relate to the k-to-d1, and k-to-anode transit time. The next category, the afterpulses, spans ~100 ns to 10 μ‎s, with a peaked time distribution. There is a long-lived source of photons, extending to days and caused by exposure of a photomultiplier to bright light or to nuclear radiation. Afterpulses contribute to the slope of a photon-counting plateau characteristic, distort fluorescent decay, and pulse shape discrimination measurements. They also affect resolution, and processes of a statistical nature.
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50

Eodice, Lynne. Photos That Inspire: Photo Workshop. Wiley & Sons, Incorporated, John, 2011.

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