29,898 research outputs found
A Proposal for Altering the Unification Scale in String Theory
An ensemble of short open strings in equilibrium with the heat bath provided
by the Euclidean worldvolume of a stack of Dbranes undergoes a thermal phase
transition to a long string phase. The transition temperature is just below the
string scale. We point out that this phenomenon provides a simple mechanism
within open and closed string theories for altering the strong-electro-weak
coupling unification scale relative to the fundamental closed string mass scale
in spacetimes with external electromagnetic background.Comment: Latex, 7pgs. v5 Minor changes to main paper. Note added, following
recent clarification of the first-order deconfining phase transition to a
long string phase in the low energy finite temperature supersymmetric gauge
theory limit (hep-th/0409301). Updated references. v6 Eq2 correcte
Transverse energy dependence of J/Psi suppression in Au+Au collisions at RHIC energy
Prediction for transverse energy dependence of to Drell-Yan ratio in
Au+Au collisions at RHIC energy was obtained in a model which assume 100%
absorption of above a threshold density. The threshold density was
obtained by fitting the NA50 data on suppression in Pb+Pb collisions
at SPS energy. At RHIC energy, hard processes may be important. Prediction of
suppression with and without hard processes were obtained. With hard
processes included, 's are strongly suppressed.Comment: 4 pages, 2 figures (revised version
Charged particle's elliptic flow in 2+1D viscous hydrodynamics at LHC (= 2.76 TeV) energy in Pb+Pb collision
In the Israel-Stewart's theory of second order hydrodynamics, we have
simulated =2.76 TeV Pb+Pb collisions. ALICE data for the centrality
dependence of charged particles multiplicity, spectra in 0-5% collisions,
centrality dependence of integrated and differential elliptic flow are
analysed. Analysis indicate that while ALICE data on charged particles
multiplicity or spectra do not demand any viscosity, viscosity is
demanded by the elliptic flow data. From a simulataneous fit to all the data
sets, viscosity to entropy ratio in =2.76 TeV Pb+Pb collisions
is extracted as, .Comment: Significantly revised version. New figures are added. Accepted in
Phys. Lett. B. 6 pages, 6 figure
Spacetime Reduction of Large N Flavor Models: A Fundamental Theory of Emergent Local Geometry?
We introduce a novel spacetime reduction procedure for the fields of a
supergravity-Yang-Mills theory in generic curved spacetime background, and with
large N flavor group, to linearized forms on an infinitesimal patch of local
tangent space at a point in the spacetime manifold. Our new prescription for
spacetime reduction preserves all of the local symmetries of the continuum
field theory Lagrangian in the resulting zero-dimensional matrix Lagrangian,
thereby obviating difficulties encountered in previous matrix proposals for
emergent spacetime in recovering the full nonlinear symmetries of Einstein
gravity. We conjecture that the zero-dimensional matrix model obtained by this
prescription for spacetime reduction of the circle-compactified type
I-I'-mIIA-IIB-heterotic supergravity-Yang-Mills theory with sixteen
supercharges and large N flavor group, and inclusive of the full spectrum of
Dpbrane charges, offers a potentially complete framework for nonperturbative
string/M theory. We explain the relationship of our conjecture for a
fundamental theory of emergent local spacetime geometry to recent
investigations of the hidden symmetry algebra of M theory, stressing insights
that are to be gained from the algebraic perspective. We conclude with a list
of open questions and directions for future work.Comment: 30pgs. v6: Ref [4] added, some terminology corrected in Intro,
sections 5,6. Footnote 2 clarifies the relation to hep-th/0201129v1.
Acknowledgments adde
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