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 D. Zeppenfeld - arXiv
Introduction to physics at e+e- and hadron colliders. A selection of processes is used to illustrate the strengths and capabilities of the different machines. The discussion includes W pair production and chargino searches at various colliders.
by D. Rainwater - arXiv
These are lectures on Higgs boson collider searches. The author first reviews the Standard Model searches, then covers in-depth what comes after a candidate discovery at LHC, and finally discusses the MSSM extension to the Higgs sector.
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 J.M. Campbell, J.W. Huston, W.J. Stirling - arXiv
The authors develop the perturbative framework for the calculation of hard scattering processes. The text provides both a rigorous development of the formalism of hard scattering of quarks and gluons and an intuitive understanding of the physics.