TY  - BOOK
AU  - Brauner,TomÃ¡Å¡
ED  - SpringerLink (Online service)
TI  - Effective Field Theory for Spontaneously Broken Symmetry
T2  - Lecture Notes in Physics,
SN  - 9783031483783
AV  - QC793-793.5 
U1  - 530.14 23
PY  - 2024///
CY  - Cham
PB  - Springer International Publishing, Imprint: Springer
KW  - Elementary particles (Physics)
KW  - Quantum field theory
KW  - Mathematical physics
KW  - Particles (Nuclear physics)
KW  - Condensed matter
KW  - Cosmology
KW  - Elementary Particles, Quantum Field Theory
KW  - Theoretical, Mathematical and Computational Physics
KW  - Particle Physics
KW  - Condensed Matter Physics
N1  - Introduction -- Our first model -- Generalizations of the model -- Spontaneous symmetry breaking -- NambuâGoldstone bosons -- Effective field theory -- Nonlinear realization of symmetry -- Low-energy effective field theory -- Some examples and applications -- Scattering of NambuâGoldstone bosons -- Differences between internal and spacetime symmetry -- Nonlinear realization of spacetime symmetry -- Broken spacetime symmetry in quantum matter -- Broken spacetime symmetry in classical matter -- Topics not covered in this book -- Some open questions. Appendix; Open Access
N2  - This open access book is about spontaneous symmetry breaking, which is a classic area of theoretical physics that lies at the core of many fascinating phenomena such as ferromagnetism, superfluidity, superconductivity, or the Higgs mechanism. The book brings an up-to-date overview of spontaneous symmetry breaking and of modern effective field theory description thereof. The topics covered include the classification of NambuâGoldstone bosons, nonlinear realization of internal and spacetime symmetries and the construction of the corresponding effective actions, and selected applications. With in-depth exposition of conceptual foundations and numerous illustrative examples, the book is accessible to anybody having taken a basic course on quantum field theory. It serves as a self-contained text for graduate students and junior researchers in diverse areas of physics, but also as a useful reference for experts
UR  - https://doi.org/10.1007/978-3-031-48378-3
ER  -