5,941 research outputs found
J/psi Suppression and Enhancement in Au+Au Collisions at the BNL RHIC
We consider the production of the J/psi mesons in heavy ion collisions at
RHIC energies in the statistical coalescence model with an exact (canonical
ensemble) charm conservation. The c\bar{c} quark pairs are assumed to be
created in the primary hard parton collisions, but the formation of the open
and hidden charm particles takes place at the hadronization stage and follows
the prescription of statistical mechanics. The dependence of the J/psi
production on both the number of nucleon participants and the collision energy
is studied. The model predicts the J/psi suppression for low energies, whereas
at the highest RHIC energy the model reveals the J/psi enhancement.Comment: 14 pages, REVTeX, 3 PS-figure
Wavelets and Quantum Algebras
Wavelets, known to be useful in non-linear multi-scale processes and in
multi-resolution analysis, are shown to have a q-deformed algebraic structure.
The translation and dilation operators of the theory associate with any scaling
equation a non-linear, two parameter algebra. This structure can be mapped onto
the quantum group in one limit, and approaches a Fourier series
generating algebra, in another limit. A duality between any scaling function
and its corresponding non-linear algebra is obtained. Examples for the Haar and
B-wavelets are worked out in detail.Comment: 27 pages Latex, 3 figure p
What can be learned from binding energy differences about nuclear structure: the example of delta V_{pn}
We perform an analysis of a binding energy difference called delta
V_{pn}(N,Z) =- 1/4(E(Z,N)-E(Z,N-2)-E(Z-2,N)+ E(Z-2,N-2) in the framework of a
realistic nuclear model. Using the angular-momentum and particle-number
projected generator coordinate method and the Skyrme interaction SLy4, we
analyze the contribution brought to delta V_{pn} by static deformation and
dynamic fluctuations around the mean-field ground state. Our method gives a
good overall description of delta V_{pn} throughout the chart of nuclei with
the exception of the anomaly related to the Wigner energy along the N=Z line.
The main conclusions of our analysis are that (i) the structures seen in the
systematics of delta V_{pn} throughout the chart of nuclei can be easily
explained combining a smooth background related to the symmetry energy and
correlation energies due to deformation and collective fluctuations; (ii) the
characteristic pattern of delta V_{pn} around a doubly-magic nucleus is a
trivial consequence of the asymmetric definition of delta V_{pn}, and not due
to a the different structure of these nuclei; (iii) delta V_{pn} does not
provide a very reliable indicator for structural changes; (iv) \delta V_{pn}
does not provide a reliable measure of the proton-neutron interaction in the
nuclear EDF, neither of that between the last filled orbits, nor of the one
summed over all orbits; (v) delta V_{pn} does not provide a conclusive
benchmark for nuclear EDF methods that is superior or complementary to other
mass filters such as two-nucleon separation energies or Q values.Comment: 19 pages and 12 figure
Thermodynamics of quantum degenerate gases in optical lattices
The entropy-temperature curves are calculated for non-interacting Bose and
Fermi gases in a 3D optical lattice. These curves facilitate understanding of
how adiabatic changes in the lattice depth affect the temperature, and we
demonstrate regimes where the atomic sample can be significantly heated or
cooled by the loading process. We assess the effects of interactions on a Bose
gas in a deep optical lattice, and show that interactions ultimately limit the
extent of cooling that can occur during lattice loading.Comment: 6 pages, 4 figures. Submitted to proceedings of Laser Physics 2006
Worksho
Spin and Pseudospin symmetries in the Dirac equation with central Coulomb potentials
We analyze in detail the analytical solutions of the Dirac equation with
scalar S and vector V Coulomb radial potentials near the limit of spin and
pseudospin symmetries, i.e., when those potentials have the same magnitude and
either the same sign or opposite signs, respectively. By performing an
expansion of the relevant coefficients we also assess the perturbative nature
of both symmetries and their relations the (pseudo)spin-orbit coupling. The
former analysis is made for both positive and negative energy solutions and we
reproduce the relations between spin and pseudospin symmetries found before for
nuclear mean-field potentials. We discuss the node structure of the radial
functions and the quantum numbers of the solutions when there is spin or
pseudospin symmetry, which we find to be similar to the well-known solutions of
hydrogenic atoms.Comment: 9 pages, 2 figures, uses revte
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