50,746 research outputs found
Baryon number conservation and the cumulants of the net proton distribution
We discuss the modification of the cumulants of the net baryon and net proton
distributions due to the global conservation of baryon number in heavy-ion
collisions. Corresponding probability distributions and their cumulants are
derived analytically. We show that the conservation of baryon number results in
a substantial decrease of higher order cumulants. Based on our studies, we
propose an observable that is insensitive to the modifications due to baryon
number conservation.Comment: 6 pages, 4 figures, to be published in Phys. Rev.
Hierarchical renormalization goup fixed points
Hierarchical renormalization group transformations are related to
non-associative algebras. Non-trivial infrared fixed points are shown to be
solutions of polynomial equations. At the example of a scalar model in
dimensions some methods for the solution of these algebraic equations
are presented.Comment: Contribution to Lat94, 27 Sep -- 1 Oct 1994, Bielefeld, 6 pages,
latex, no figure
Equilibrium in Heavy Ion Collisions
We discuss the question of equilibriation in heavy ion collisions and how it
can be addressed in experimentComment: Proceedings 19th Winter Workshop on Nuclear Dynamics, Breckenridge,
Co, 200
Abundance analysis of a CEMP-no star in the Carina dwarf spheroidal galaxy
Carbon-enhanced metal-poor (CEMP) stars bear important imprints of the early
chemical enrichment of any stellar system. While these stars are known to exist
in copious amounts in the Milky Way halo, detailed chemical abundance data from
the faint dwarf spheroidal (dSph) satellites are still sparse, although the
relative fraction of these stars increases with decreasing metallicity. Here,
we report the abundance analysis of a metal-poor ([Fe/H]= dex),
carbon-rich ([C/Fe]=1.4 dex) star, ALW-8, in the Carina dSph using
high-resolution spectroscopy obtained with the ESO/UVES instrument. Its
spectrum does not indicate any over-enhancements of neutron capture elements.
Thus classified as a CEMP-no star, this is the first detection of this kind of
star in Carina. Another of our sample stars, ALW-1, is shown to be a CEMP-
star, but its immediate binarity prompted us to discard it from a detailed
analysis. The majority of the 18 chemical elements we measured are typical of
Carina's field star population and also agree with CEMP stars in other dSph
galaxies. Similar to the only known CEMP-no star in the Sculptor dSph and the
weak--process star HD 122563, the lack of any strong barium-enhancement is
accompanied by a moderate overabundance in yttrium, indicating a weak
-process activity. The overall abundance pattern confirms that, also in
Carina, the formation site for CEMP-no stars has been affected by both faint
supernovae and by standard core collapse supernovae. Whichever process was
responsible for the heavy element production in ALW-8 must be a ubiquitous
source to pollute the CEMP-no stars, acting independently of the environment
such as in the Galactic halo or in dSphs.Comment: Accepted for publication in A&
Synaptic Transmission: An Information-Theoretic Perspective
Here we analyze synaptic transmission from an information-theoretic
perspective. We derive closed-form expressions for the lower-bounds on the
capacity of a simple model of a cortical synapse under two explicit coding
paradigms. Under the ``signal estimation'' paradigm, we assume the signal to be
encoded in the mean firing rate of a Poisson neuron. The performance of an
optimal linear estimator of the signal then provides a lower bound on the
capacity for signal estimation. Under the ``signal detection'' paradigm, the
presence or absence of the signal has to be detected. Performance of the
optimal spike detector allows us to compute a lower bound on the capacity for
signal detection. We find that single synapses (for empirically measured
parameter values) transmit information poorly but significant improvement can
be achieved with a small amount of redundancy.Comment: 7 pages, 4 figures, NIPS97 proceedings: neuroscience. Originally
submitted to the neuro-sys archive which was never publicly announced (was
9809002
Closing a window for massive photons
Working with the assumption of non-zero photon mass and a trajectory that is
described by the non geodesic world line of a spinning top we find, by deriving
new astrophysical bounds, that this assumption is in contradiction with current
experimental results. This yields the conclusion that such photons have to be
exactly massless.Comment: 5 pages, 1 figur
Spin amplification, reading, and writing in transport through anisotropic magnetic molecules
Inelastic transport through a single magnetic molecule weakly coupled to
metallic leads is studied theoretically. We consider dynamical processes that
are relevant for writing, storing, and reading spin information in molecular
memory devices. Magnetic anisotropy is found to be crucial for slow spin
relaxation. In the presence of anisotropy we find giant spin amplification: The
spin accumulated in the leads if a bias voltage is applied to a molecule
prepared in a spin-polarized state can be made exponentially large in a
characteristic energy divided by temperature. For one ferromagnetic and one
paramagnetic lead the molecular spin can be reversed by applying a bias voltage
even in the absence of a magnetic field. We propose schemes for reading and
writing spin information based on our findings.Comment: 5+ pages with 5 figure
Baryon number and strangeness: signals of a deconfined antecedent
The correlation between baryon number and strangeness is used to discern the
nature of the deconfined matter produced at vanishing chemical potential in
high-energy nuclear collisions at the BNL RHIC. Comparisons of results of
various phenomenological models with correlations extracted from lattice QCD
calculations suggest that a quasi-particle picture applies. At finite baryon
densities, such as those encountered at the CERN SPS, it is demonstrated that
the presence of a first-order phase transition and the accompanying development
of spinodal decomposition would significantly enhance the number of strangeness
carriers and the associated fluctuations.Comment: 10 pages, 4 figures, latex, to appear in the proceedings of the
Workshop on Correlations and Fluctuations in Relativistic Nuclear collisions,
(MIT, April 21-23,2005
Recall of Group Tasks as a Function of Group Cohesiveness and Interruption of Tasks
The paper demonstrates that the motivational concepts underlying the Zeigarnik effect pertaining to individuals attempting to achieve their personal goals can be applied to individuals who are working to attain the group goals. However, this is true only for individuals in cohesive groups as opposed to noncohesive groups
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