IFLP   13074
INSTITUTO DE FISICA LA PLATA
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
Holographyc Thermalization
Autor/es:
WALTER H. BARON
Lugar:
Padua
Reunión:
Seminario; Regular Seminar of the Department of Physics and Astronomy Galileo Galilei; 2013
Resumen:
Dynamical evolution of thin shells composed by different kinds of
degrees of freedom collapsing within asymptotically AdS spaces is
explored with the aim of investigating models of holographic
thermalization of strongly coupled systems. From the quantum field
theory point of view this corresponds to considering different thermal
quenches. We carry out a general study of the thermalization time scale
using different parameters and space-time dimensions, by calculating
renormalized space-like geodesic lengths and rectangular minimal area
surfaces as extended probes of thermalization, which are dual to
two-point functions and rectangular Wilson loops. Different kinds of
degrees of freedom in the shell are described by their corresponding
equations of state. We consider a scalar field, as well as relativistic
matter, a pressureless massive fluid and conformal matter, which can be
compared with the collapse of an AdS-Vaidya thin shell. Remarkably, in
the case of AdS5, for conformal matter,
the thermalization time scale becomes much larger than the others.
Furthermore, in each case we also investigate models where the
cosmological constants of the inner and outer regions separated by the
shell are different. We found that in this case only a scalar field
shell collapses, and that the thermalization time scale is also much
larger than the AdS-Vaidya case.