As the growing number of conference proceedings, preprints, periodicals and popular journal articles are being joined by various electronic forms of dissemination of research, the series Progress in Low Temperature Physics assumes a particular responsibility in providing excellent reviews, guiding the reading of the literature and providing direction for future research possibilities. In this most recent volume, the main theme is research on superfluid and adsorbed phases of helium.In five chapters the following topics are dealt with. Chapter one is a review of one of the essential characteristics of superfluid 4He, the Landau critical velocity. Chapter two reviews the amazing properties of coherent spin dynamics in superfluid 3He. The next chapter examines a unique situation with a number of thermodynamic transitions between superfluid states and discusses the current experimental and theoretical situation. Properties of phases of 3He adsorbed on graphite are discussed in the following chapter, and in a complementary final chapter a review is presented on the properties of multilayer 3He-4He mixture films.
Author(s): W.P. Halperin (Eds.)
Series: Progress in Low Temperature Physics 14
Publisher: Elsevier, Academic Press
Year: 1995
Language: English
Pages: 1-466
Content:
Preface
Pages v-vi
Bill Halperin
Contents of previous volumes
Pages xi-xvi
Chapter 1 The landau critical velocity Original Research Article
Pages 1-68
P.V.E. McClintock, R.M. Bowley
Chapter 2 Spin supercurrent and novel properties of nmr in 3he Original Research Article
Pages 69-158
Yu.M. Bunkov
Chapter 3 Nucleation of the ab transition in superfluid 3he: Experimental and theoretical considerations Original Research Article
Pages 159-211
P. Schiffer, D.D. Osheroff, A.J. Leggett
Chapter 4 Experimental properties of 3he adsorbed on graphite Original Research Article
Pages 213-320
H. Godfrin, H.-J. Lauter
Chapter 5 The properties of multilayer 3HE — 4HE mixture films Original Research Article
Pages 321-443
Robert B. Hallock
Author Index
Pages 445-462
Subject Index
Pages 463-466