Электронная книга: Paul Seidel «Applied Superconductivity. Handbook on Devices and Applications»

Applied Superconductivity. Handbook on Devices and Applications

This wide-ranging presentation of applied superconductivity, from fundamentals and materials right up to the details of many applications, is an essential reference for physicists and engineers in academic research as well as in industry. Readers looking for a comprehensive overview on basic effects related to superconductivity and superconducting materials will expand their knowledge and understanding of both low and high Tc superconductors with respect to their application. Technology, preparation and characterization are covered for bulk, single crystals, thins fi lms as well as electronic devices, wires and tapes. The main benefit of this work lies in its broad coverage of significant applications in magnets, power engineering, electronics, sensors and quantum metrology. The reader will find information on superconducting magnets for diverse applications like particle physics, fusion research, medicine, and biomagnetism as well as materials processing. SQUIDs and their usage in medicine or geophysics are thoroughly covered, as are superconducting radiation and particle detectors, aspects on superconductor digital electronics, leading readers to quantum computing and new devices.

Издательство: "John Wiley&Sons Limited"

ISBN: 9783527670666

электронная книга

Купить за 52122.65 руб и скачать на Litres

Paul Seidel

Paul Seidel (* 1970 in Florenz) ist ein Mathematiker, der sich vor allem mit symplektischer Geometrie und symplektischer Topologie beschäftigt.

Seidel studierte an der Universität Heidelberg bei Albrecht Dold und nach dem Diplom 1994 an der Universität Oxford bei John Roe und Simon Donaldson, bei dem er 1998 promovierte (Floer Homology and the symplectic isotopy problem). Er war zu Gastaufenthalten am Max-Planck-Institut für Mathematik in Bonn (1998/99), am Institute for Advanced Study (1997/98) und der ETH Zürich (2003). Er war 1999 bis 2001 als Chargé de Recherche der CNRS an der Ecole Polytechnique in Paris (und gleichzeitig 2000/2001 dort Maitre de Conference) und war ab 2002 Professor am Imperial College in London und ab 2003 an der University of Chicago. Er ist seit 2007 Professor am Massachusetts Institute of Technology (MIT).

Seidel untersuchte in seiner Dissertation, wann symplektische Diffeomorphismen, die diffeotop zur Identität sind, auch symplektisch diffeotop zur Identität sind. Er fand Obstruktionen dafür schon in Dimension 4 aus verallgemeinerten Dehn-Twist-Abbildungen und Anwendung der Floer-Homologie. Für die Fundamentalgruppe von Hamiltonschen Symplektomorphismen fand er eine Darstellung im Quanten-Kohomologiering. Er konnte einen Spezialfall (für K3-Flächen) einer Vermutung von Maxim Konzewitsch über Homologische Spiegelsymmetrie beweisen.[1]. Die Techniken dafür entwickelte er in einer Forschungs-Monographie über die Berechnung von Fukaya-Kategorien symplektischer Mannigfaltigkeiten mit Picard-Lefschetz-Theorie.

2000 erhielt er den EMS-Preis. 2002 war er Invited Speaker auf dem ICM in Peking (Fukaya Categories and Deformations). 2010 erhielt er den Oswald-Veblen-Preis für fundamentale Beiträge zur symplektischen Geometrie und speziell seine Entwicklung fortgeschrittener algebraischer Methoden zur Berechnung symplektischer Invarianten.

Schriften

  • Fukaya Categories and Picard Lefschetz Theory, European Mathematical Society, 2008

Weblinks

Einzelnachweise

  1. Zuvor war sie in anderen Spezialfällen, wie für elliptische Kurven und Abelsche Varietäten bewiesen worden

Источник: Paul Seidel

Другие книги схожей тематики:

АвторКнигаОписаниеГодЦенаТип книги
Paul SeidelApplied Superconductivity. Handbook on Devices and ApplicationsThis wide-ranging presentation of applied superconductivity, from fundamentals and materials right up to the details of many applications, is an essential reference for physicists and engineers in… — @John Wiley&Sons Limited, @ @ @ @ Подробнее...
52122.65электронная книга

См. также в других словарях:

  • Organic light-emitting diode — Demonstration of a flexible OLED device A green emitting OLED device An …   Wikipedia

  • Niobium — zirconium ← niobium → molybdenum V ↑ Nb ↓ Ta …   Wikipedia

  • Nanotechnology — Part of a series of articles on …   Wikipedia

  • Conductive polymer — This article is about bulk applications of conductive polymers. For single molecule electronics, see Molecular scale electronics. Chemical structures of some conductive polymers. From top left clockwise: polyacetylene; polyphenylene vinylene;… …   Wikipedia

  • Samarium — promethium ← samarium → europium ↑ Sm ↓ …   Wikipedia

  • Metamaterial — Negative index metamaterial array configuration, which was constructed of copper split ring resonators and wires mounted on interlocking sheets of fiberglass circuit board. The total array consists of 3 by 20×20 unit cells with overall dimensions …   Wikipedia

  • Metamaterial cloaking — Electromagnetism Electricity · …   Wikipedia

  • Synthetic diamond — Synthetic diamonds of various colors grown by the high pressure high temperature technique Synthetic diamond is diamond produced in a technological process; as opposed to natural diamond, which is created in geological processes. Synthetic… …   Wikipedia

  • Hydrogen — This article is about the chemistry of hydrogen. For the physics of atomic hydrogen, see Hydrogen atom. For other meanings, see Hydrogen (disambiguation). ← hydrogen → helium …   Wikipedia

  • SQUID — For other uses, see Squid (disambiguation). Sensing element of the SQUID A SQUID (for superconducting quantum interference device) is a very sensitive magnetometer used to measure extremely weak magnetic fields, based on superconducting loops… …   Wikipedia

  • Technetium — molybdenum ← technetium → ruthenium Mn ↑ Tc ↓ Re …   Wikipedia


Поделиться ссылкой на выделенное

Прямая ссылка:
Нажмите правой клавишей мыши и выберите «Копировать ссылку»