13,565 research outputs found
The Antiferromagnetic Sawtooth Lattice - the study of a two spin variant
Generalising recent studies on the sawtooth lattice, a two-spin variant of
the model is considered. Numerical studies of the energy spectra and the
relevant spin correlations in the problem are presented. Perturbation theory
analysis of the model explaining some of the features of the numerical data is
put forward and the spin wave spectra of the model corresponding to different
phases are investigated.Comment: Latex, 37 pages including 14 figures; M. S. project report, Indian
Institute of Science (March, 2003); this is one of the references of
cond-mat/030749
Viscosity and thermodynamic properties of QGP in relativistic heavy ion collisions
We study the viscosity and thermodynamic properties of QGP at RHIC by
employing the recently extracted equilibrium distribution functions from two
hot QCD equations of state of and respectively. After
obtaining the temperature dependence of energy density, and entropy density, we
focus our attention on the determination of shear viscosity for a rapidly
expanding interacting plasma, as a function of temperature. We find that
interactions significantly decrease the shear viscosity. They decrease the
viscosity to entropy density ratio, as well.Comment: 21 pages, 10 figures, Version to appear in EPJ
Hot QCD equations of state and relativistic heavy ion collisions
We study two recently proposed equations of state (EOS) which are obtained
from high temperature QCD, and show how they can be adapted to use them for
making predictions for relativistic heavy ion collisions. The method involves
extracting equilibrium distribution functions for quarks and gluons from the
EOS, which in turn will allow a determination of the transport and other bulk
properties of the quark gluon plasma. Simultaneously, the method also yields a
quasi particle description of interacting quarks and gluons. The first EOS is
perturbative in the QCD coupling constant and has contributions of .
The second EOS is an improvement over the first, with contributions upto ; it incorporates the nonperturbative hard thermal
contributions. The interaction effects are shown to be captured entirely by the
effective chemical potentials for the gluons and the quarks, in both the cases.
The chemical potential is seen to be highly sensitive to the EOS. As an
application, we determine the screening lengths which are, indeed the most
important diagnostics for QGP. The screening lengths are seen to behave
drastically differently depending on the EOS considered., and yield, therefore,
a way to distinguish the two equations of state in heavy ion collisions.Comment: 11 pages, fifteen figures, two column, accepted for publication in
PR
Gapless points of dimerized quantum spin chains: analytical and numerical studies
We study the locations of the gapless points which occur for quantum spin
chains of finite length (with a twisted boundary condition) at particular
values of the nearest neighbor dimerization, as a function of the spin S and
the number of sites. For strong dimerization and large values of S, a tunneling
calculation reproduces the same results as those obtained from more involved
field theoretic methods using the non-linear sigma-model approach. A different
analytical calculation of the matrix element between the two Neel states gives
a set of gapless points; for strong dimerization, these differ significantly
from the tunneling values. Finally, the exact diagonalization method for a
finite number of sites yields a set of gapless points which are in good
agreement with the Neel state calculations for all values of the dimerization,
but the agreement with the tunneling values is not very good even for large S.
This raises questions about possible corrections to the tunneling results.Comment: Revtex4, 10 pages including 5 figure
The response of the upper atmospheric temperature to changes in solar EUV radiation and geomagnetic activity
Solar radiation and magnetic effects on upper atmospheric neutral temperatures derived from satellite dra
On the distribution of barriers in the spin glasses
We discuss a general formalism that allows study of transitions over barriers
in spin glasses with long-range interactions that contain large but finite
number, , of spins. We apply this formalism to the Sherrington-Kirkpatrick
model with finite and derive equations for the dynamical order parameters
which allow ''instanton'' solutions describing transitions over the barriers
separating metastable states. Specifically, we study these equations for a
glass state that was obtained in a slow cooling process ending a little below
and show that these equations allow ''instanton'' solutions which erase
the response of the glass to the perturbations applied during the slow cooling
process. The corresponding action of these solutions gives the energy of the
barriers, we find that it scales as where is the reduced
temperature.Comment: 8 pages, LaTex, 2 Postscript figure
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