Semiclassical Physics
eBook - ePub

Semiclassical Physics

  1. 484 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

Semiclassical Physics

Book details
Table of contents
Citations

About This Book

This book attempts to convey to the reader that semiclassical physics can be fun, as well as useful for understanding quantum fluctuations in interacting many-body systems. It presents applications to finite fermion systems in diverse areas of physics.

Frequently asked questions

Simply head over to the account section in settings and click on “Cancel Subscription” - it’s as simple as that. After you cancel, your membership will stay active for the remainder of the time you’ve paid for. Learn more here.
At the moment all of our mobile-responsive ePub books are available to download via the app. Most of our PDFs are also available to download and we're working on making the final remaining ones downloadable now. Learn more here.
Both plans give you full access to the library and all of Perlego’s features. The only differences are the price and subscription period: With the annual plan you’ll save around 30% compared to 12 months on the monthly plan.
We are an online textbook subscription service, where you can get access to an entire online library for less than the price of a single book per month. With over 1 million books across 1000+ topics, we’ve got you covered! Learn more here.
Look out for the read-aloud symbol on your next book to see if you can listen to it. The read-aloud tool reads text aloud for you, highlighting the text as it is being read. You can pause it, speed it up and slow it down. Learn more here.
Yes, you can access Semiclassical Physics by Matthias Brack, Rajat Bhaduri in PDF and/or ePUB format, as well as other popular books in Physical Sciences & Physics. We have over one million books available in our catalogue for you to explore.

Information

Publisher
CRC Press
Year
2018
ISBN
9780429982453
Edition
1
Topic
Physical Sciences
Subtopic
Physics
Index
Physics

Table of contents

  1. Cover
  2. Half Title
  3. Title Page
  4. Copyright Page
  5. Dedication
  6. Table of Contents
  7. 1 Introduction
  8. 2 Quantization of integrable systems
  9. 3 The single-particle level density
  10. 4 The extended Thomas-Fermi model
  11. 5 Gutzwiller’s trace formula for isolated orbits
  12. 6 Extensions of the Gutzwiller theory
  13. 7 Quantization of nonintegrable systems
  14. 8 Shells and periodic orbits in finite fermion systems
  15. 9 Concluding remarks
  16. A The self-consistent mean field approach
  17. B Inverse Laplace transforms
  18. C More about the monodromy matrix
  19. D Calculation of Maslov indices for isolated orbits
  20. Index