2,061,989 research outputs found
The Green's function for the radial Schramm-Loewner evolution
We prove the existence of the Green's function for radial SLE(k) for k<8.
Unlike the chordal case where an explicit formula for the Green's function is
known for all values of k<8, we give an explicit formula only for k=4. For
other values of k, we give a formula in terms of an expectation with respect to
SLE conditioned to go through a point.Comment: v1: 16 pages, 0 figure
Mirror Fermions in Noncommutative Geometry
In a recent paper we pointed out the presence of extra fermionic degrees of
freedom in a chiral gauge theory based on Connes Noncommutative Geometry. Here
we propose a mechanism which provides a high mass to these mirror states, so
that they decouple from low energy physics.Comment: 7 pages, LaTe
Indication for Light Sneutrinos and Gauginos from Precision Electroweak Data
The present Standard Model fit of precision data has a low confidence level,
and is characterized by a few inconsistencies. We look for supersymmetric
effects that could improve the agreement among the electroweak precision
measurements and with the direct lower bound on the Higgs mass. We find that
this is the case particularly if the 3.6 sigma discrepancy between sin^2
theta_eff from leptonic and hadronic asymmetries is finally settled more on the
side of the leptonic ones. After the inclusion of all experimental constraints,
our analysis selects light sneutrinos, with masses in the range 55-80 GeV, and
charged sleptons with masses just above their experimental limit, possibly with
additional effects from light gauginos. The phenomenological implications of
this scenario are discussed.Comment: 17 pages LaTex, 9 figures, uses epsfi
Solving the Constraints of General Relativity
I show in this letter that it is possible to solve some of the constraints of
the -ADM formalism for general relativity by using an approach similar
to the one introduced by Capovilla, Dell and Jacobson to solve the vector and
scalar constraints in the Ashtekar variables framework. I discuss the
advantages of using the ADM formalism and compare the result with similar
proposals for different Hamiltonian formulations of general relativity.Comment: 8 pages, LATEX, no figures, Preprint CGPG-94/11-
Shock waves in strongly interacting Fermi gas from time-dependent density functional calculations
Motivated by a recent experiment [Phys. Rev. Lett. 106, 150401 (2011)] we
simulate the collision between two clouds of cold Fermi gas at unitarity
conditions by using an extended Thomas-Fermi density functional. At variance
with the current interpretation of the experiments, where the role of viscosity
is emphasized, we find that a quantitative agreement with the experimental
observation of the dynamics of the cloud collisions is obtained within our
superfluid effective hydrodynamics approach, where density variations during
the collision are controlled by a purely dispersive quantum gradient term. We
also suggest different initial conditions where dispersive density ripples can
be detected with the available experimental spatial resolution.Comment: 5 pages, 4 figures, to be published in Phys. Rev.
Bethe-Peierls Approximation for Linear Monodisperse Polymers Re-examined
Bethe-Peierls approximation, as it applies to the thermodynamics of polymer
melts, is reviewed. We compare the computed configurational entropy of
monodisperse linear polymer melt with Monte Carlo data available in literature.
An estimation of the configurational contribution to the total liquid's Cp is
presented. We also discuss the relation between Kauzmann paradox and polymer
semiflexibility.Comment: 9 pages, 3 figure
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