An Introduction to Millikelvin Technology (Cambridge Studies in Low Temperature Physics) Book + PRICE WATCH * Amazon pricing is not included in price watch

An Introduction to Millikelvin Technology (Cambridge Studies in Low Temperature Physics) Book

This book is a concise introduction to the experimental technicalities of low and ultralow temperature physics research. The book begins with an introduction to the thermodynamic principles of refrigeration and thermometry. The basic introduction to the subject will be of value to postgraduate students beginning research in low temperature physics, and to seasoned researchers moving into the field.Read More

from£N/A | RRP: £15.99
* Excludes Voucher Code Discount Also available Used from £N/A
  • Product Description

    Betts presents a concise introduction to the experimental technicalities of low and ultralow temperature physics research. He has made extensive use of diagrams as aids to understanding, and refers the reader to the professional literature as soon as the level of the text is high enough. Topics covered include all aspects of low temperature technology, beginning with an introduction to the thermodynamic principles of refrigeration and thermometry. The text also covers the properties of fluid 3He/4He mixtures, and all the means of achieving low temperatures, including dilution and Pomeranchuk refrigeration and adiabatic nuclear demagnetization.

  • 052101817X
  • 9780521018173
  • David S. Betts
  • 22 August 2005
  • Cambridge University Press
  • Paperback (Book)
  • 112
  • Digitally Printed 1st Pbk. Version
As an Amazon Associate we earn from qualifying purchases. If you click through any of the links below and make a purchase we may earn a small commission (at no extra cost to you). Click here to learn more.

Would you like your name to appear with the review?

We will post your book review within a day or so as long as it meets our guidelines and terms and conditions. All reviews submitted become the licensed property of www.find-book.co.uk as written in our terms and conditions. None of your personal details will be passed on to any other third party.

All form fields are required.