Asako Tsuji
(Hiroshima University (JP))
15/11/2012, 17:05
A very strong magnetic field is expected to be created in relativistic heavy-ion collisions. The magnetic field is created in non-central collisions and the maximum strength reaches the order of 1014 T at the CERN-LHC energies and of 1013 T at the BNL-RHIC. The strength is far greater than of a magnetar which is known for the strongest magnetic field ( ~1011 T...
Ms
P. S. Saumia
(Institute of Physics)
15/11/2012, 17:30
It is known that the presence of background magnetic field in cosmic plasma distorts the acoustic peaks in CMBR. This primarily results from different types of waves in the plasma with velocities depending on the angle between the magnetic field and the wave vector. We consider the consequences of these effects in relativistic heavy-ion collisions where very strong magnetic fields arise during...
Nikhil Karthik
(TIFR, Mumbai)
15/11/2012, 17:55
We present improved lattice computation of correlation
lengths in flavour non-singlet meson and baryon channels in finite
temperature QCD. We find that the correlation lengths rapidly approach
ideal gas values above the QCD crossover temperature, Tc. The approach
is from above for all the meson and nucleon channels. We also find that parity partners become degenerate a little above Tc,...
