| |
| Towards faster computation of higher order quark number susceptibilities in QCD |
| |
|
| Content: |
Computing higher order quark number susceptibilities(QNS) is important for
the accurate determination of the critical end-point of QCD by Taylor
series method. Moreover various diagonal and off-diagonal QNS help us to
determine the properties of the quark-gluon plasma. By introducing the
chemical potential in the staggered fermion operator as a Lagrange
multiplier associated with the point split number density term, we show
that the computations of the QNS become faster. Furthermore, the QNS
computed in this method are not prescription dependent as seen for the
commonly used methods. However, the second order susceptibility has a
contribution which diverges in the limit of vanishing lattice spacing, $a$
and corrections of higher orders in $a$ in the higher order QNS. We
suggest a prescription to eliminate the divergence in second order
susceptibility and the unwanted finite terms in the higher order QNS. We
compute the various QNS on the lattice, for two flavour QCD with staggered
fermions at $N_T=6$. Our method yields estimates of all the QNS consistent
with the values computed using the standard method for the QGP phase, but
with considerably less computational effort. We also comment on the
possible extension of our method in the confined phase of QCD. |
| Id: |
140 |
| Place: |
Room: Main Auditorium |
| Starting date: |
|
| Duration: |
00' |
| Primary Authors: |
Mr. SHARMA, Sayantan (Tata Institute of Fundamental Research) |
| Presenters: |
Mr. SHARMA, Sayantan |
| |
| |
|
|
|
| |
| |
|
|
support
Powered by CERN Indico
|
http://indico.vecc.gov.in/indicoevent/1
|
Last modified: 21 April 2011 05:02