761 research outputs found
Meson-nucleon scattering and vector mesons in nuclear matter
The properties of vector mesons in nuclear matter are discussed. I examine
the constraints imposed by elementary processes on the widths of and
mesons in nuclear matter. Furthermore, results for the - and
-nucleon scattering amplitudes obtained by fitting meson-nucleon
scattering data in a coupled-channel approach are presented.Comment: 7 pages, 6 EPS figures, uses appb.sty (included), talk given at
Meson98, Cracow, May 98, to be published in Acta Physica Polonica
Three-body interactions in Fermi systems
We show that the contributions of three-quasiparticle interactions to normal
Fermi systems at low energies and temperatures are suppressed by n_q/n compared
to two-body interactions, where n_q is the density of excited or added
quasiparticles and n is the ground-state density. For finite Fermi systems,
three-quasiparticle contributions are suppressed by the corresponding ratio of
particle numbers N_q/N. This is illustrated for polarons in strongly
interacting spin-polarized Fermi gases and for valence neutrons in neutron-rich
calcium isotopes.Comment: 16 pages, 1 figure; to appear in Festschrift on the occasion of Gerry
Brown's 85th birthday, Ed. Sabine Lee (World Scientific
Kurtosis and compressibility near the chiral phase transition
The properties of net quark number fluctuations in the vicinity of the QCD
chiral phase transition are discussed in terms of an effective chiral model in
the mean-field approximation. We focus on the ratio of the fourth- to second-
order cumulants (kurtosis) and the compressibility of the system and discuss
their dependence on the pion mass. It is shown that near the chiral phase
transition, both observables are sensitive to the value of . For
physical , the kurtosis exhibits a peak whereas the inverse
compressibility shows a dip at the pseudocritical temperature. These structures
disappear for large . Our results, obtained in an effective model with
two flavors, are qualitatively consistent with recent results of 2+1 flavor
lattice gauge theory. We also discuss the high- and low-temperature properties
of these observables and the role of the coupling of the quark degrees of
freedom to the Polyakov loop
Hamiltonian Flow Equations for the Lipkin Model
We derive Hamiltonian flow equations giving the evolution of the Lipkin
Hamiltonian to a diagonal form using continuous unitary transformations. To
close the system of flow equations, we present two different schemes. First we
linearize an operator with three pairs of creation and destruction operators by
reducing it to the component of the quasi spin. We obtain the well known
RPA-result in the limit of large particle number. In the second scheme we
introduce a new operator which improves the resulting spectrum considerably
especially for few particles.Comment: 10 pages, 2 eps figures, uses article.sty, epsfig.st
Susceptibilities and the Phase Structure of a Chiral Model with Polyakov Loops
In an extension of the Nambu-Jona-Lasinio model where the quarks interact
with the temporal gluon field, represented by the Polyakov loop, we explore the
relation between the deconfinement and chiral phase transitions. The effect of
Polyakov loop dynamics on thermodynamic quantities, on the phase structure at
finite temperature and baryon density and on various susceptibilities is
presented. Particular emphasis is put on the behavior and properties of the
fluctuations of the (approximate) order parameters and their dependence on
temperature and net--quark number density. We also discuss how the phase
structure of the model is influenced by the coupling of the quarks to the
Polyakov loop.Comment: 18 pages, 22 figures; text rearranged and references added. results
and conclusions unchanged; final version accepted for publication in Phys.
Rev.
The neutron matter equation of state from low-momentum interactions
We calculate the neutron matter equation of state at finite temperature based
on low-momentum nucleon-nucleon and three-nucleon interactions. Our results are
compared to the model-independent virial equation of state and to variational
calculations. We provide a simple estimate for the theoretical error, important
for extrapolations to astrophysical conditions.Comment: 3 pages, 2 figures, to appear in the proceedings of Quark Confinement
and Hadron Spectrum VII (QCHS7), Ponta Delgada (Acores), Portugal, 2-7
September 200
Effective chiral model with Polyakov loops and its application to hot/dense medium
We study the thermodynamics of the Nambu--Jona-Lasinio model with Polyakov
loops, where spontaneous chiral symmetry breaking and confinement are taken
into account. We focus on the phase structure of the model and explore the
susceptibilities associated with corresponding order parameters under the
mean-field approximation.Comment: 4 pages, 1 figure, to appear in the proceedings of the Yukawa
International Seminars (YKIS) 2006, Nov.27-Dec.1, 2006, Kyoto, Japa
From meson-nucleon scattering to vector mesons in nuclear matter
We employ meson-nucleon scattering data to deduce the properties of the
low-mass vector mesons in nuclear matter, and present results for the
and in-medium spectral functions. The corresponding thermal emission
rate for lepton pairs is also discussed.Comment: Talk given at 28th International Workshop on Gross Properties of
Nuclei and Nuclear Excitations, Hirschegg, Austria, 16-22 Jan. 200
Susceptibilities and the Phase Structure of an Effective Chiral Model with Polyakov Loops
In the Nambu--Jona-Lasinio model with Polyakov loops, we explore the relation
between the deconfinement and chiral phase transitions within the mean-field
approximation. We focus on the phase structure of the model and study the
susceptibilities associated with corresponding order parameters.Comment: 6 pages, 2 figures, contribution to the proceedings of the 19th
International Conference on Ultra-Relativistic Nucleus-Nucleus Collisions
(QM2006), November 14-20 2006, Shanghai, Chin
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