Introduction to Relativistic Transport Theory
by Hendrik van Hees
Publisher: Johann Wolfgang Goethe-Universitaet 2015
Number of pages: 52
The aim of these lectures is to provide a self-contained presentation of the general foundations of relativistic transport theory with the aim to provide the theoretical tools for the application of such methods to relativistic heavy-ion collisions.
Home page url
Download or read it online for free here:
by T.E.O. Ericson, V.W. Hughes, D.E. Nagle - University of California Press
This volume is a collection of commented reprints concerning the physics program at meson factories, the characteristics of the accelerators, and the major instrumentation as well as the applications, the history and future of these facilities.
by Peter Westwick - American Institute of Physics
As he built machines to study subatomic particles, Ernest Lawrence created modern Big Science. After helping make the first atomic bombs, he became a leader of Cold War science. His biography is illustrated with pictures, explanations and a song.
by Andrzej Wolski - arXiv
We discuss electromagnetic fields, with an emphasis on aspects relevant to radiofrequency systems in particle accelerators. We review Maxwell's equations and show that there are solutions representing the propagation of electromagnetic waves.
by Maxim Perelstein - arXiv
This is an introduction to some of the basic ideas and tools required for theoretical analysis of collider data. Several examples of Standard Model processes at electron-positron and hadron colliders are considered to illustrate these ideas.