This book reports on the latest developments in the field of Superfluidity, one of the most fundamental, interesting, and important problems in physics, with applications ranging from metals, helium liquids, photons in cavities, excitons in semiconductors, to the interior of neutron stars and the present state of the Universe as a whole.
This book reports on the latest developments in the field of Superfluidity, one of the most fundamental, interesting, and important problems in physics, with applications ranging from metals, helium liquids, photons in cavities, excitons in semiconductors, to the interior of neutron stars and the present state of the Universe as a whole.
K. H. Bennemann is Professor of Physics at the FU Berlin (1971-). He graduated from the University of Illinois at Urbana, where he worked with J. Bardeen. He has also been a research Sloan-fellow. He is internationally known in particular for research on magnetism, non-linear optics, superconductivity and ultrafast dynamics in condensed matter. J. B. Ketterson is Professor of Physics and Astronomy at Northwestern University (1974- ). He was earlier at Argonne National Laboratory (1962 - 1974). He received his PhD from the University of Chicago (1962) under Prof. A. W. Lawson. He specializes in condensed matter physics (electronic properties of metals, liquid helium, superconductivity, cold trapped gasses, magnetism, liquid crystals and Langmuir films, and non linear optics). Both authors are well known for their classic books on Superfluid He and Superconductivity.
Inhaltsangabe
* 1: K. H. Bennemann and J. B. Ketterson: An introduction to superfluidity and superconductivity * 2: J. B. Ketterson and K. H. Bennemann: A survey of some novel superfluids * 3: Makoto Tsubota, Kenichi Kasamatsuand, and Michikazu Kobayashi: Quantized vortices in superfluid helium and atomic Bose-Einstein condensates * 4: Y.M. Bunkov and G.E. Volovik: Spin superfluidity and magnon Bose-Einstein condensation * 5: Yoonseok Lee and Richard P. Haley: Superfluid helium three in aerogel: experiment * 6: Jan Klaers and Martin Weitz: Bose-Einstein condensation of photons * 7: Frederic Chevy and Jean Dalibard: Bose-Einstein condensation of atomic gases * 8: M. Kuwata-Gonokami: Experiments on excitons in bulk semiconductors * 9: Y. Yamamoto: Superfluidity in exciton-polariton condensates * 10: Mark G. Alford, Andreas Schmitt, Krishna Rajagopal, and Thomas Schafe: Color superconductivity in dense quark matter * 11: G. E. Volovik: The superfluid universe
* 1: K. H. Bennemann and J. B. Ketterson: An introduction to superfluidity and superconductivity * 2: J. B. Ketterson and K. H. Bennemann: A survey of some novel superfluids * 3: Makoto Tsubota, Kenichi Kasamatsuand, and Michikazu Kobayashi: Quantized vortices in superfluid helium and atomic Bose-Einstein condensates * 4: Y.M. Bunkov and G.E. Volovik: Spin superfluidity and magnon Bose-Einstein condensation * 5: Yoonseok Lee and Richard P. Haley: Superfluid helium three in aerogel: experiment * 6: Jan Klaers and Martin Weitz: Bose-Einstein condensation of photons * 7: Frederic Chevy and Jean Dalibard: Bose-Einstein condensation of atomic gases * 8: M. Kuwata-Gonokami: Experiments on excitons in bulk semiconductors * 9: Y. Yamamoto: Superfluidity in exciton-polariton condensates * 10: Mark G. Alford, Andreas Schmitt, Krishna Rajagopal, and Thomas Schafe: Color superconductivity in dense quark matter * 11: G. E. Volovik: The superfluid universe
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