22,379 research outputs found
Charged branes interactions via Kalb-Ramond field
Because of its versatility, the 2-form field has been employed to describe a
multitude of scenarios that range from high energy to condensed matter physics.
Pushing forward in this endeavor we study the interaction energy, intermediated
by this kind of field, between branes in a variety of configurations. Also, the
so-called Cremmer-Scherk-Kalb-Ramond model, which consists of the
electromagnetic field coupled to the Kalb-Ramond gauge potential, is
considered. It turns out that these models exhibit a much richer class of
sources than usually thought, able to intermediate novel forms of interactions
in different scenarios.Comment: 12 latex pages, more general result
A Conducting surface in Lee-Wick electrodynamics
The Lee-Wick electrodynamics in the vicinity of a conducting plate is
investigated. The propagator for the gauge field is calculated and the
interaction between the plate and a point-like electric charge is computed. The
boundary condition imposed on the vector field is taken to be the one that
vanishes, on the plate, the normal component of the dual field strength to the
plate. It is shown that the image method is not valid in Lee-Wick
electrodynamics.Comment: 11 pages, 1 figur
Flavor Asymmetry of the Polarized Light Sea: Models vs. Data
The flavor asymmetry of the polarized light sea, , discriminates between different model calculations of helicity densities.
We show that the chiral chromodielectric model, differently from models based
on a expansion, predicts a small value for this asymmetry, what seems
in agreement with preliminary HERMES data.Comment: 10 pages, 3 figure
Atomic Josephson vortex
We show that Josephson vortices in a quasi-1D atomic Bose Josephson junction
can be controllably manipulated by imposing a difference of chemical potentials
on the atomic BEC waveguides forming the junction. This effect, which has its
origin in the Berry phase structure of a vortex, turns out to be very robust in
the whole range of the parameters where such vortices can exist. We also
propose that a Josephson vortex can be created by the phase imprinting
technique and can be identified by a specific tangential feature in the
interference picture produced by expanding clouds released from the waveguides.Comment: 7 pages, 3 figures, revtex4, submitted to Phys. Rev. A, title and
abstract changed, old sections revised, new sections added, references adde
Observation of a New Fluxon Resonant Mechanism in Annular Josephson Tunnel Structures
A novel dynamical state has been observed in the dynamics of a perdurbed
sine-Gordon system. This resonant state, has been experimentally observed as a
singularity in the dc current voltage characteristic of an annular Josephson
tunnel junction, excited in the presence of a magnetic field. With this
respect, it can be assimilated to self-resonances known as Fiske steps.
Differently from these, however, we demonstrate, on the basis of numerical
simulations, that its detailed dynamics involves rotating fluxon pairs, a
mechanism associated, so far, to self-resonances known as zero-field steps.Comment: 4 pages, 2 figures, submitted to Physical Review Letter
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