Shortcuts
Top of page (Alt+0)
Page content (Alt+9)
Page menu (Alt+8)
Your browser does not support javascript, some WebOpac functionallity will not be available.
.
Default
.
PageMenu
-
Main Menu
-
Simple Search
.
Advanced Search
.
Journal Search
.
Refine Search Results
.
Preferences
.
Search Menu
Simple Search
.
Advanced Search
.
New Items Search
.
Journal Search
.
Refine Search Results
.
Bottom Menu
Help
Italian
.
English
.
German
.
New Item Menu
New Items Search
.
New Items List
.
Links
SISSA Library
.
ICTP library
.
Italian National web catalog (SBN)
.
Trieste University web catalog
.
Udine University web catalog
.
© LIBERO v6.4.1sp220816
Page content
You are here
:
>
System Notification
Catalogue Card Display
Catalogue Card Display
RAK
Title: Quantum fields : from the Hubble to the Planck Scale ([Ebook]) / Michael Kachelriess Dewey Class: 530.15 (DDC 23) Author: Kachelriess, Michael Publication: Oxford, U.K. : Oxford University Press, 2018 Other name(s): Oxford Scholarship Online Physical Details: 1 online resource (xv, 528 pages) Series: Oxford graduate texts ISBN: 9780191841330 Note: Print publication date: 2017. - Print ISBN-13: 9780198802877. - Published to Oxford Scholarship Online: February 2018 Mode of acces to digital resource: Digital reproduction.Oxford :Oxford University Press,2018.Oxford Scholarship OnlineMode of access: World Wide Web. System requirements: Internet Explorer 6.0 (or higher) or Firefox 2.0 (or higher). Available as searchable text in HTML format. System details note: Online access to this digital book is available only for subscription institutions through IP address (only for SISSA internal users) Summary Note: This book introduces quantum field theory, together with its most important applications to cosmology and astroparticle physics, in a coherent framework. The path-integral approach is employed right from the start, and the use of Green functions and generating functionals is illustrated first in quantum mechanics and then in scalar field theory. Massless spin one and two fields are discussed on an equal footing, and gravity is presented as a gauge theory in close analogy with the Yang–Mills case. Concepts relevant to modern research such as helicity methods, effective theories, decoupling, or the stability of the electroweak vacuum are introduced. Various applications such as topological defects, dark matter, baryogenesis, processes in external gravitational fields, inflation and black holes help students to bridge the gap between undergraduate courses and the research literature.: ------------------------------ *** Es sind keine Exemplare vorhanden *** -----------------------------------------------
Quick Search
Search for