2,228 research outputs found
Testing the LCDM model (and more) with the time evolution of the redshift
With the many ambitious proposals afoot for new generations of very large
telescopes, along with spectrographs of unprecedented resolution, there arises
the real possibility that the time evolution of the cosmological redshift may,
in the not too distant future, prove to be a useful tool rather than merely a
theoretical curiosity. Here I contrast this approach with the standard
cosmological procedure based on the luminosity (or any other well-defined)
distance. I then show that such observations would not only provide a direct
measure of all the associated cosmological parameters of the LCDM model, but
would also provide wide-ranging internal consistency checks. Further, in a more
general context, I show that without introducing further time derivatives of
the redshift one could in fact map out the dark energy equation of state should
the LCDM model fail. A consideration of brane-world scenarios and interacting
dark energy models serves to emphasize the fact that the usefulness of such
observations would not be restricted to high redshifts.Comment: In final form as to appear in Physical Review D. 12 pages 6 figure
Constrained annealing for spin glasses
The quenched free energy of spin glasses is estimated by means of annealed
averages where the frustration is constrained to its average value. We discuss
the case of d-dimensional Ising models with random nearest neighbour coupling,
and we introduce a new method to obtain constrained annealed averages without
recurring to Lagrange multipliers. It requires to perform quenched averages
either on small volumes in an analytic way, or on finite size strips via
products of random transfer matrices. We thus give a sequence of converging
lower bounds for the quenched free energy of 2d spin glasses.Comment: plane TeX file,24 pages. 6 figures may be requested to Paladin at
vxscaq.aquila.infn.i
Depinning and dynamics of AC driven vortex lattices in random media
We study the different dynamical regimes of a vortex lattice driven by AC
forces in the presence of random pinning via numerical simulations. The
behaviour of the different observables is charaterized as a function of the
applied force amplitude for different frequencies. We discuss the
inconveniences of using the mean velocity to identify the depinnig transition
and we show that instead, the mean quadratic displacement of the lattice is the
relevant magnitude to characterize different AC regimes. We discuss how the
results depend on the initial configuration and we identify new hysteretic
effects which are absent in the DC driven systems.Comment: 6 pages, 4 figure
Longitudinal and Transverse Parton Momentum Distributions for Hadrons within Relativistic Constituent Quark Models
Longitudinal and transverse parton distributions for pion and nucleon are
calculated from hadron vertexes obtained by a study of form factors within
relativistic quark models. The relevance of the one-gluon-exchange dominance at
short range for the behavior of the form factors at large momentum transfer and
of the parton distributions at the end points is stressed.Comment: 5 pages, 4 figs. Proceedings of Hadron 09, to appear in AIP
Conference Proceeding
Probing the parton content of the nucleon
The parton content of the nucleon is explored within a meson-cloud model
developed to derive light-cone wave functions for the physical nucleon. The
model is here applied to study electromagnetic form factors, distribution
amplitudes and nucleon-to-meson transition distribution amplitudes.Comment: 10 pages, 6 figures; proceedings of the workshop "Recent Advances in
Perturbative QCD and Hadronic Physics" in Honor of Prof. Anatoly Efremov's
75th Birthday Celebration; to appear in Mod. Phys. Lett.
Physics with Beam Tau-Neutrino Appearance at DUNE
We explore the capabilities of the upcoming Deep Underground Neutrino
Experiment (DUNE) to measure charged-current interactions and the
associated oscillation probability at its far
detector, concentrating on how such results can be used to probe neutrino
properties and interactions. DUNE has the potential to identify significantly
more events than all existing experiments and can use this data
sample to nontrivially test the three-massive-neutrinos paradigm by providing
complementary measurements to those from the appearance and
disappearance channels. We further discuss the sensitivity of the
appearance channel to several hypotheses for the physics that may lurk beyond
the three-massive-neutrinos paradigm: a non-unitary lepton mixing matrix, the
light neutrinos hypothesis, and the existence of non-standard
neutral-current neutrino interactions. Throughout, we also consider the
relative benefits of the proposed high-energy tune of the Long-Baseline
Neutrino Facility (LBNF) beam-line.Comment: 23 pages, 14 figures, 2 appendice
Dynamic reorganization of vortex matter into partially disordered lattices
We report structural evidence of dynamic reorganization in vortex matter in
clean NbSe by joint small angle neutron scattering and ac-susceptibility
measurements. The application of oscillatory forces in a transitional region
near the order-disorder transition results in robust bulk vortex lattice
configurations with an intermediate degree of disorder. These
dynamically-originated configurations correlate with intermediate pinning
responses previously observed, resolving a long standing debate regarding the
origin of such responses.Comment: 9 pages, 7 figures. To be published in Physical Review Letter
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