Books in Quantum fluids and solids liquid and solid helium

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Progress in Low Temperature Physics

• 1st Edition
• Volume 9
• August 22, 2011
• D.F. Brewer
• English
• eBook 978-0-08-087304-6

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Progress in Low Temperature Physics

• 1st Edition
• Volume 11
• August 22, 2011
• D.F. Brewer
• English
• eBook 978-0-08-087306-0

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The present volume is largely concerned with helium, as the variety of physics encompassed in the thermal, magnetic and hydrodynamic properties of liquid and solid helium is considerable - it is in many ways a model condensed system.

Progress in Low Temperature Physics

• 1st Edition
• Volume 8
• April 1, 2000
• D.F. Brewer
• English
• eBook 978-0-08-087303-9

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Progress in Low Temperature Physics

• 1st Edition
• Volume 13
• December 17, 1991
• D.F. Brewer
• English
• eBook 978-0-08-087308-4

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Since 1955 Progress in Low Temperature Physics has continued to monitor scientific achievements in the realm of low-temperature physics. Obtaining low temperatures used to be an aim in itself in the past, whereas nowadays achieving millikelvin temperatures is a routine experimental procedure. However, the properties of materials at these low temperatures contine to produce fascinating physics: the liquid, solid and superfluid, phases of the quantum fluids 3He and 4He as well as 'new' materials such as high-temperature superconductors and tiny quantum devices display their macroscopic quantum behavior only at the lowest temperatures.Volume XIII of this series continues the tradition of collecting fundamental studies of macroscopic quantum phenomena. In this volume, properties of new systems such as small circuits at low temperatures and high-Tc superconductors are studied. But the systems that are formed by 3He and 4He and their mixtures at low temperatures continue to dazzle and amaze with their ever more intricate properties studied with increasing accuracy. This volume provides the reader with an archival overview of the magic world of low temperatures as perceived by todays most sensitive probes.

Helium Three

• 1st Edition
• Volume 26
• December 17, 1990
• L. P. Pitaevskii + 1 more
• English
• eBook 978-0-444-59828-8

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Introducing the subject of superfluid helium three and polarized liquid helium three, this book is devoted to modern problems in many body physics specific to the quantum fluid helium three. Relationships between properties of helium three and topics in other fields are established including superconductivity, non-linear dynamics, acoustics, and magnetically polarized quantum systems.Among the chapters in this collection one finds valuable reference material and original research not published elsewhere. Advanced research topics are presented in a pedagogical manner, in considerable depth, and with appropriate introductory material sufficiently general to be suitable to the non-specialist.

Progress in Low Temperature Physics

• 1st Edition
• Volume 12
• November 28, 1989
• D.F. Brewer
• English
• eBook 978-0-08-087307-7

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Volume 12 in this distinguished series starts with a chapter on high temperature superconductivity. The chapter is of general interest, giving a historical perspective of the various speculations in the past on the possibility of such superconductors and the possible mechanisms for the superconductivity in the recently discovered materials. Other chapters illustrate the wide range of physics which are more usual low temperature topics, such as spin polarized 3He gas and the Kapitza thermal boundary resistance at mainly millikelvin temperatures. Topics from neighbouring fields such as metal physics and applications of low-temperature physics are dealt with in chapters on charge density waves and multi-SQUID devices and their applications.

Progress in Low Temperature Physics

• 1st Edition
• Volume 10
• September 1, 1986
• D.F. Brewer
• English
• eBook 978-0-08-087305-3

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As in Volume IX, the quantum fluids theme still dominates. This is reflected in articles by Fetter on vortices in superfluid 3He, which bears both similarities and striking differences to those in superfluid 4He, and by Rainer on the ab initio calculation of the transition temperatures of superconductors. In the article by Silvera and Walraven, the authors review their original experiments on spin-polarized atomic hydrogen. Finally, Dahm's article deals with charge motion in solid helium, which is not so obviously a quantum fluid, but a system in which the behaviour is a typical example of low temperature phenomena.