Overview
- Editors:
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Gabor J. Kalman
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Boston College, Chestnut Hill
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J. Martin Rommel
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Boston College, Chestnut Hill
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Krastan Blagoev
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Boston College, Chestnut Hill
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Table of contents (136 chapters)
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Electron Liquid
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- M. Howard Lee, Jongbae Hong, Jangil Kim
Pages 445-448
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- S. Shapira, U. Sivan, P. M. Solomon, E. Buchstab, M. Tischler, G. Ben Yoseph
Pages 455-459
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- S. Conti, R. Nifosì, M. P. Tosi
Pages 461-465
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- Vladimir Filinov, Yurii Lozovik, Alex Filinov, Igor Zacharov
Pages 467-471
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- M. Steinberg, J. Ortner, W. Ebeling
Pages 473-477
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- I. M. Tkachenko, P. Fernández de Córdoba, J. M. Belda
Pages 479-482
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Quantum Dots, Hubbard Model, Semiconductor Plasmas
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- E. V. Tsiper, A. L. Efros
Pages 483-486
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- L. Landin, M. S. Miller, M. -E. Pistol, C. E. Pryor, L. Samuelson
Pages 509-513
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- Michael Bonitz, Nai-Hang Kwong, Dirk Semkat, Dietrich Kremp
Pages 515-518
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Bilayers
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- J. T. Nicholls, N. P. R. Hill, E. H. Linfield, M. Pepper, D. A. Ritchie
Pages 519-522
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- F. M. Peeters, B. Partoens, V. A. Schweigert, I. V. Schweigert
Pages 523-527
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- F. Rapisarda, Gaetano Senatore
Pages 529-532
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- V. Valtchinov, G. J. Kalman, K. Golden
Pages 533-538
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Fusion Plasmas
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- D. O. Gericke, M. Schlanges, W. -D. Kraeft
Pages 539-542
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- C. Cereceda, M. de Peretti, M. Sabatier
Pages 543-546
About this book
The International Conference on Strongly Coupled Coulomb Systems was held on the campus of Boston College in Newton, Massachusetts, August 3–10, 1997. Although this conference was the first under a new name, it was the continuation of a series of international meetings on strongly coupled plasmas and other Coulomb systems that started with the NATO Summer Institute on Strongly Coupled Plasmas, almost exactly twenty years prior to this conference, in July of 1977 in Orleans la Source, France. Over the intervening period the field of strongly coupled plasmas has developed vigorously. In the 1977 meeting the emphasis was on computer (Monte Carlo and molecular dynamics) simulations which provided, for the first time, insight into the rich and new physics of strongly coupled fully ionizedplasmas. While theorists scrambled to provide a theoretical underpinning for these results, there was also a dearth of real experimental input to reinforce the computer simulations. Over the past few years this situation has changed drastically and a variety of direct experiments on classical, pure, strongly correlated plasma systems (charged particle traps, dusty plasmas, electrons on the surface of liquid helium, etc. ) have become available. Even more importantly, entire new area of experimental interest in condensed matter physics have opened up through developments in nano-technology and the fabrication of low-dimensional systems, where the physical behavior, in many ways, is similar to that in classical plasmas. Strongly coupled plasma physics has always been an interdisciplinaryactivity.