Electrons in Fluids
Electrons in Fluids

Author: Joshua Jortner

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 486

ISBN-13: 3642619622

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Colloque Weyl I was convened in June 1963 at the Catholic University of Lille to commemorate one hundred years of the study of metal-ammonia solutions. This memorable event, which involved a "single-particle excitation", inspired Gerard Lepoutre to assemble an international group of physicists and chemists to discuss the nature of metal-ammonia solutions. Colloque Weyl II, which took 1969, was initiated as a place at Cornell Universtiy, Ithaca, N.Y. in June "cooperative interaction" between M. J. Sienko, J. L. Dye, J. J. Lagowski, G. Lepoutre and J. C. Thompson. That meeting made it clear that Colloque Weyl should be continued in order to promote the fruitful exchange of ideas set in motion at Lille and at Cornell. Colloque Weyl III came into being as the result of a resolution passed at the Cornell meeting, Tel-Aviv University being the suggested site. The Organizing Committee consisted ofE. D. Bergmann, J. Jortner, J. J. Lagowski, G. Lepoutre, U. Schindewolf and M. J. Sienko, reflecting the international and interdisciplinary aspects of the field.

Metal—Ammonia Solutions
Metal—Ammonia Solutions

Author: Sam Stuart

Publisher: Elsevier

Published: 2013-10-22

Total Pages: 523

ISBN-13: 148313623X

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Metal-Ammonia Solutions contains the proceedings of an International Conference on the Nature of Metal-Ammonia Solutions Colloque Weyl II held at Cornell University in Ithaca, New York, on June 15-19, 1969. The papers explore the nature of metal-ammonia solutions and cover topics ranging from the dilemma of metal-ammonia models to the magnetic properties of metal-ammonia solutions, the reactions of such solutions, and solid metal-ammonia compounds. This monograph is comprised of 39 chapters and begins with an overview of models for the concentration dependence of the properties of dilute metal-ammonia solutions. The discussion then turns to a continuous dielectric model for the solvated dielectron in dielectric media; elementary electronic excitations in insulating liquids; and magnetic properties of metal-ammonia solutions. The chapters that follow focus on the kinetics of the reaction between sodium and ethanol in liquid ammonia; electrons trapped in solids; metal-nonmetal transition and phase separation; and optical spectra of alkali metal-ammonia solutions. This text will be a valuable resource for chemists and chemistry students.