|Location||Call number||Copy number||Status||Date due|
|Sala B : Armadio Tesi||THS_2016 539.7 C9739 (Browse shelf)||1||Available|
|Sala B : Armadio Tesi||THS_2016 539.7 C9739 (Browse shelf)||2||Available|
Tesi di diploma di 1° livello per la Classe delle Scienze Sperimentali Diploma di 1° livello Scuola Superiore di Catania, Catania, Italy 2016 A.A. 2015/2016
Includes bibliographical references (p. 80-81).
Introduction -- Basics of quark-gluon plasma and hard thermal loops -- A path-integral expression for the density matrix -- Derivation and discussion of the Linblad equation -- Conclusions -- Ringraziamenti -- Bibliography.
Tesi discussa il 02/05/2016.
It is a well known fact that quarks and gluons are confined in colorless particles, called hadrons. However, at high temperature and densities, a new state of matter emerges, where quarks and gluons are free to occupy color states: the quark gluon plasma (QGP). Many theoretical and experimental attempts have been done in searching for this state. It is believed that up to a few milliseconds after the Big Bang, the Universe was in a quark-gluon plasma state, whence the strong interest in this state of matter.