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Books on the topic 'Highly correlated electrons'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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1

Macarie, Liliana Sandina. Correlated electrons and high-temperature superconductivity. [s.l.]: typescript, 1995.

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2

Adolfo, Avella, and Mancini Ferdinando, eds. Lectures on the physics of highly correlated electron systems x: Tenth Training Course in the Physics of Correlated Electron Systems and High-TC Superconductors. Melville, NY: American Institute of Physics, 2006.

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3

Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (8th 2003 Salerno, Italy). Lectures on the physics of highly correlated electron systems VIII: Eighth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, Salerno, Italy, 6-17 October 2003. Edited by Avella Adolfo and Mancini Ferdinando. Melville, N.Y: American Institute of Physics, 2004.

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4

Adolfo, Avella, and Mancini Ferdinando, eds. Lectures on the Physics of Highly Correlated Electron Systems VII: Seventh Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, Salerno, Italy, 14-25 October 2002. Melville, N.Y: American Institute of Physics, 2003.

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5

Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (4th 1999 Salerno, Italy). Lectures on the physics of highly correlated electron systems IV: Fourth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors : Salerno, Italy, 11-22 October 1999. Edited by Mancini Ferdinando. Melville, N.Y: American Institute of Physics, 2000.

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6

Adolfo, Avella, Mancini Ferdinando, European Commission, Università degli studi di Salerno., and International Institute for Advanced Scientific Studies., eds. Lectures on the physics of highly correlated electron systems IX: Ninth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, Salerno, Italy, 4-15 October 2004. Melville, N.Y: American Institute of Physics, 2005.

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7

Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (6th 2001 Salerno, Italy). Lectures on the physics of highly correlated electron systems VI: Sixth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, Salerno, Italy, 8-19 October 2001. Edited by Mancini Ferdinando. Melville, N.Y: American Institute of Physics, 2002.

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8

Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (6th 2001 Salerno, Italy). Lectures on the physics of highly correlated electron systems VI: Sixth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors : Salerno, Italy, 8-19 October 2001. Edited by Mancini Ferdinando. Melville, N.Y: American Institute of Physics, 2002.

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9

Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (6th 2001 Salerno, Italy). Lectures on the physics of highly correlated electron systems VI: Sixth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors : Salerno, Italy, 8-19 October 2001. Edited by Mancini Ferdinando. Melville, N.Y: American Institute of Physics, 2002.

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10

Strongly Correlated Electronic Materials. (1993 Los Alamos). Strongly correlated electronic materials: The Los Alamos symposium, 1993. Edited by Bedell K. S. Reading, Mass: Addison-Wesley, 1994.

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11

Walstedt, Russell E. The NMR Probe of High-Tc Materials and Correlated Electron Systems. Berlin, Heidelberg: Springer Berlin Heidelberg, 2018. http://dx.doi.org/10.1007/978-3-662-55582-8.

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12

Training, Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (5th 2000 Salerno Italy). Lectures on the physics of highly correlated electron systems V: Fifth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, Salerno, Italy, 30 October-10 November 2000. Melville, N.Y: American Institute of Physics, 2001.

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13

Komatsubara, T. Physics of strongly correlated electron systems: Report of priority areas on physics of strongly corrleated [sic] electron systems. Minato-ku, Tokyo, Japan: Publication Office, Japanese Journal of Applied Physics, 1999.

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14

G, Baskaran, ed. Proceedings of the Anniversary Adriatico Research Conference and Workshop on Strongly Correlated Electron Systems. Singapore: World Scientific, 1990.

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15

Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (11th 2006 Salerno, Italy). Lectures on the physics of strongly correlated systems XI: Eleventh Training Course in the Physics of Strongly Correlated Systems, Salerno, Italy, 2-13 October 2006. Edited by Avella Adolfo, Mancini Ferdinando, and American Institute of Physics. Melville, N.Y: American Institute of Physics, 2007.

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16

International School of Theoretical Physics (14th 1990 Szczyrk, Poland). Strongly correlated electron systems & high-Tc superconductivity: 14th International School of Theoretical Physics, Szczyrk, Poland, 15-22 September 1990. Edited by Mańka R, Maśka M, and Zipper E. Singapore: World Scientific, 1991.

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17

G, Baskaran, ed. Strongly correlated electron systems II: Proceedings of the Adriatico research conference and miniworkshop, ICTP, Trieste, Italy, 18 June-27 July 1990. Singapore: World Scientific, 1991.

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18

International Conference on the Physics of Highly Correlated Electron Systems (1989 Santa Fe). ICPHCES: Proceedings of the International Conference on the Physics of Highly Correlated Electron Systems held in Santa Fe, New Mexico on 11-15 September 1989. Edited by Willis J. O. Amsterdam: North-Holland, 1990.

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19

International Conference on Strongly Correlated Electron Systems (1999 Nagano-ken, Japan). Proceedings of the Yamada Conference LI, the International Conference on Strongly Correlated Electron Systems, SCES '99: Held in Nagano, Japan, 24-28 August, 1999. Edited by Miyake K and Yamada Conference (51st : 1999 Nagano-ken, Japan). Amsterdam: Elsevier Science, 2000.

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20

Parinov, I. A. Microstructure and Properties of High-Temperature Superconductors. 2nd ed. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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21

(Editor), Ferdinando Mancini, ed. Lectures on the Physics of Highly Correlated Electron Systems V. American Institute of Physics, 2001.

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22

Lectures on the Physics of Highly Correlated Electron Systems IV: Fourth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (AIP Conference Proceedings). American Institute of Physics, 2000.

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23

(Editor), Adolfo Avella, and Ferdinando Mancini (Editor), eds. Lectures on the Physics of Highly Correlated Electron Systems VIII: Eighth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (AIP Conference Proceedings). American Institute of Physics, 2004.

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24

(Editor), Adolpho Avella, and Ferdinando Mancini (Editor), eds. Lectures on the Physics of Highly Correlated Electron Systems VII: Seventh Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (AIP Conference Proceedings). American Institute of Physics, 2003.

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25

Ferdinando, Mancini, and Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors (2nd : 1997 : Salerno, Italy), eds. Lectures on the physics of highly correlated electron systems: Salerno, Italy, October 1997. Woodbury, N.Y: American Institute of Physics, 1998.

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26

Lectures on the Physics of Highly Correlated Electron Systems VI : Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, ... October 2001 (AIP Conference Proceedings). American Institute of Physics, 2002.

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27

Lectures on the Physics of Highly Correlated Electron Systems IX: Ninth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors ... / Materials Physics and Applications). American Institute of Physics, 2005.

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28

(Editor), Adolfo Avella, and Ferdinando Mancini (Editor), eds. Lectures on the Physics of Highly Correlated Electron Systems X: Tenth Training Course in the Physics of Correlated Electron Systems and High-Tc Superconductors ... / Materials Physics and Applications). American Institute of Physics, 2006.

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29

Kevin, Bedell, ed. Strongly correlated electronic materials: The Los Alamos symposium, 1993. Reading, Mass: Addison-Wesley Pub. Co., 1994.

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30

Walstedt, Russell E. The NMR Probe of High-Tc Materials and Correlated Electron Systems. Springer, 2018.

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31

Walstedt, Russell E. The NMR Probe of High-Tc Materials and Correlated Electron Systems. Springer, 2017.

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32

SPIE. Strongly Correlated Electron Materials: Physics and Nanoengineering: 31 July-4. SPIE-International Society for Optical Engine, 2005.

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33

Noce, C., and A. Romano. Superconductivity and Strongly Correlated Electron Systems: Amalfi, Italy 14-16 October 1993. World Scientific Pub Co Inc, 1995.

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34

C, Noce, Romano A, Scarpetta G, and International Conference"Superconductivity and Strongly Correlated Electron Systems" (1993 : Amalfi, Italy), eds. Superconductivity and strongly correlated electron systems: Amalfi, Italy, 14-16 October 1993. Singapore: World Scientific, 1994.

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35

Han, Fuxiang. Coexistance of spin and charge density fluctuations in strongly correlated systems. 1993.

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36

(Editor), A. E. Ruckenstein, ed. Proceedings: Adriatico Conference : Strongly Correlated Electron Systems II (Progress in High Temperature Superconductivity, Vol 29). World Scientific Pub Co Inc, 1991.

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37

Ivan, Bozovic, Pavuna Davor, and Society of Photo-optical Instrumentation Engineers., eds. Strongly correlated electron materials: Physics and nanoengineering : 31 July-4 August, 2005, San Diego, California, USA. Bellingham, Wash: SPIE, 2005.

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38

Eland, John, and Raimund Feifel. Double Photoionisation Spectra of Molecules. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198788980.001.0001.

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This book contains spectra of the doubly charged positive ions (dications) of some 75 molecules, including the major constituents of terrestrial and planetary atmospheres and prototypes of major chemical groups. It is intended to be a new resource for research in all areas of molecular spectroscopy involving high energy environments, both terrestrial and extra-terrestrial. All the spectra have been produced by photoionisation using laboratory lamps or synchrotron radiation and have been measured using the magnetic bottle time-of-flight technique by coincidence detection of correlated electron pairs. Full references to published work on the same species are given, though for several molecules these are the first published spectra. Double ionisation energies are listed and discussed in relation to the molecular electronic structure of the molecules. A full introduction to the field of molecular double ionisation is included and the mechanisms by which double photoionisation can occur are examined in detail. A preliminary chapter covers double photoionisation of an atom in order to explain the basic principles of the technique, then five chapters present spectra of molecules of increasing size. A seventh chapter on the new fields of core–core and core–valence double ionisations, with selected examples, completes the main body of the book. Appendices explain the detailed mechanisms of double photoionisation, the calibration of the electron spectrometers, and give a brief summary of the methods by which double ionisation energies are calculated theoretically.
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39

(Editor), M. Maska, ed. Strongly Correlated Electron Systems and High-Tc Superconductivity: 14th International School of Theoretical Physics Szcyrk, Poland 15-22 September. World Scientific Pub Co Inc, 1992.

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40

G, Baskaran, ed. Strongly correlated electron systems III: Proceedings of the Adriatico research conference and miniworkshop, ICTP Trieste, Italy, 8 July-2 August, 1991. Singapore: World Scientific, 1992.

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41

Zrazhevskiy, P., and X. Gao. Bioconjugated quantum dots for tumor molecular imaging and profiling. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.17.

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This article discusses the use of bioconjugated quantum dots (QDs) for tumor molecular imaging and profiling. The need for personalized diagnostics and therapy is becoming apparent in all areas of medicine, and especially urgent and sought after in treating cancer. Mechanisms of cancerogenesis and cancer response to therapy remain poorly understood, thus precluding accurate cancer diagnosis, prognosis, and effective treatment. Accurate molecular profiling of individual tumors is one key to effective treatment. This article first considers the photophysical properties of QDs before reviewing the most common methods for engineering QD-based probes for biomedical applications, including water solubilization and bioconjugation approaches. It also describes a number of techniques for molecular imagingand profiling of tumors, ranging from QD-based multicolor flow cytometry and applications of QDs in high-resolution correlated fluorescence/electron microscopy, QD bioprobes for molecular profiling of tumor-tissue sections and microarrays, and QD-oligonucleotide bioconjugates for in-situ hybridization.
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42

Wright, A. G. The Photomultiplier Handbook. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.001.0001.

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This handbook is aimed at helping users of PMTs who are faced with the challenge of designing sensitive light detectors for scientific and industrial purposes. The raison d’être for photomultipliers (PMTs) stems from four intrinsic attributes: large detection area, high, and noiseless gain, and wide bandwidth. Detection involves a conversion process from photons to photoelectrons at the photocathode. Photoelectrons are subsequently collected and increased in number by the action of an incorporated electron multiplier. Photon detection, charge multiplication, and many PMT applications are statistical in nature. For this reason appropriate statistical treatments are provided and derived from first principles. PMTs are characterized by a range of photocathodes offering detection over UV to infra-red wavelengths, the sensitivities of which can be calibrated by National Laboratories. The optical interface between light sources and PMTs, particularly for diffuse or uncollimated light, is sparsely covered in the scientific literature. The theory of light guides, Winston cones, and other light concentrators points to means for optimizing light collection subject to the constraints of Liouville’s theorem (étandue). Certain PMTs can detect single photons but are restricted by the limitations of unwanted background ranging in magnitude from a fraction of a photoelectron equivalent to hundreds of photoelectrons. These sources, together with their correlated nature, are examined in detail. Photomultiplier biasing requires a voltage divider comprising a series of resistors or active components, such as FETs. Correct biasing provides the key to linear operation and so considerable attention is given to the treatment of this topic. Electronic circuits and modules that perform the functions of charge to voltage conversion, pulse shaping, and impedance matching are analysed in detail.
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43

(Editor), Yu Lu, ed. Strongly Correlated Electron Systems III: Proceedings of the Adriatico Research Conference and Miniworkshop : Ictp, Trieste, Italy 8 July-2 August, (Series ... in High Temperature Superconductivity). World Scientific Pub Co Inc, 1992.

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44

Tosatti, E., G. Baskaran, and A. E. Ruckenstein. Strongly Correlated Electron Systems: Proceedings of the Anniversary Adriatico Research Conference and Workshop Ictp, Trieste Italy 19 June-21 July (Series ... in High Temperature Superconductivity). World Scientific Publishing Company, 1990.

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