22,941 research outputs found
Noise suppression due to long-range Coulomb interaction: Crossover between diffusive and ballistic transport regimes
We present a Monte Carlo analysis of shot-noise suppression due to long-range
Coulomb interaction in semiconductor samples under a crossover between
diffusive and ballistic transport regimes. By varying the mean time between
collisions we find that the strong suppression observed under the ballistic
regime persists under quasi-ballistic conditions, before being washed out when
a complete diffusive regime is reached.Comment: RevTex, 3 pages, 4 figures, minor correction
The evolution of the stellar populations in low surface brightness galaxies
We investigate the star formation history and chemical evolution of low
surface brightness (LSB) disk galaxies by modelling their observed
spectro-photometric and chemical properties using a galactic chemical and
photometric evolution model incorporating a detailed metallicity depen dent set
of stellar input data. For a large fraction of the LSB galaxies in our sample,
observed properties are best explained by models incorporating an exponentially
decreasing global star formation rate (SFR) ending at a present-day gas
fraction (M_{gas}/(M_{gas}+M_{stars}) = 0.5 for a galaxy age of 14 Gyr. For
some galaxies small amplitude star formation bursts are required to explain the
contribution of the young (5-50 Myr old) stellar population to the galaxy
integrated luminosity. This suggests that star formation has proceeded in a
stochastic manner.
The presence of an old stellar population in many late-type LSB galaxies
suggests that LSB galaxies roughly follow the same evolutionary history as HSB
galaxies, except at a much lower rate. In particular, our results imply that
LSB galaxies do not form late, nor have a delayed onset of star formation, but
simply evolve slowly.Comment: To be published in A&
Effect of Coulomb interaction on current noise in open quantum dots
We analyze the effect of Coulomb interaction on the noise of electric current
through an open quantum dot. We demonstrate that the ensemble average value of
the noise power acquires an interaction correction even for a dot coupled to
the leads by reflectionless point contacts, when the ensemble average
conductance is known to have no interaction corrections. To leading order, the
correction to the noise originates from the formation of a nonequilibrium state
of the Coulomb field describing the interaction between electrons. We find the
dependence of the current noise power on the electron temperature, the applied
voltage bias, and the strength of the Coulomb interaction.Comment: 4.5 pages, 2 figure
Effects of dephasing on shot-noise in an electronic Mach-Zehnder interferometer
We present a theoretical study of the influence of dephasing on shot noise in
an electronic Mach-Zehnder interferometer. In contrast to phenomenological
approaches, we employ a microscopic model where dephasing is induced by the
fluctuations of a classical potential. This enables us to treat the influence
of the environment's fluctuation spectrum on the shot noise. We compare against
the results obtained from a simple classical model of incoherent transport, as
well as those derived from the phenomenological dephasing terminal approach,
arguing that the latter runs into a problem when applied to shot noise
calculations for interferometer geometries. From our model, we find two
different limiting regimes: If the fluctuations are slow as compared to the
time-scales set by voltage and temperature, the usual partition noise
expression T(1-T) is averaged over the fluctuating phase difference. For the
case of ``fast'' fluctuations, it is replaced by a more complicated expression
involving an average over transmission amplitudes. The full current noise also
contains other contributions, and we provide a general formula, as well as
explicit expressions and plots for specific examples.Comment: 18 pages, 8 figures. A brief version is contained in cond-mat/030650
Dynamic transition and Shapiro-step melting in a frustrated Josephson-junction array
We consider a two-dimensional fully frustrated Josephson-junction array
driven by combined direct and alternating currents. Interplay between the mode
locking phenomenon, manifested by giant Shapiro steps in the current-voltage
characteristics, and the dynamic phase transition is investigated at finite
temperatures. Melting of Shapiro steps due to thermal fluctuations is shown to
be accompanied by the dynamic phase transition, the universality class of which
is also discussed
Quartic double solids with ordinary singularities
We study the mixed Hodge structure on the third homology group of a threefold
which is the double cover of projective three-space ramified over a quartic
surface with a double conic. We deal with the Torelli problem for such
threefolds.Comment: 14 pages, presented at the Conference Arnol'd 7
Destruction of Molecular Hydrogen During Cosmological Reionization
We investigate the ability of primordial gas clouds to retain molecular
hydrogen (H_2) during the initial phase of the reionization epoch. We find that
before the Stromgren spheres of the individual ionizing sources overlap, the UV
background below the ionization threshold is able to penetrate large clouds and
suppress their H_2 abundance. The consequent lack of H_2 cooling could prevent
the collapse and fragmentation of clouds with virial temperatures T_vir < 10^4
K (or masses 10^8 Msun [(1+z_vir)/10]^{-3/2}). This negative feedback on
structure-formation arises from the very first ionizing sources, and precedes
the feedback due to the photoionization heating.Comment: 14 pages, uuencoded compressed Postscript, 4 figures included. To
appear in Ap
Finite voltage shot noise in normal-metal - superconductor junctions
We express the low-frequency shot noise in a disordered normal-metal -
superconductor (NS) junction at finite (subgap) voltage in terms of the normal
scattering amplitudes and the Andreev reflection amplitude. In the multichannel
limit, the conductance exhibits resonances which are accompanied by an
enhancement of the (differential) shot noise. In the study of multichannel
single and double barrier junctions we discuss the noise properties of coherent
transport at low versus high voltage with respect to the Andreev level spacing.Comment: 6 pages, Latex, 2 eps-figures, to be published in PRB, Appendix on
Bogoliubov equation
The Baryonic Tully-Fisher Relation
We explore the Tully-Fisher relation over five decades in stellar mass in
galaxies with circular velocities ranging over 30 < Vc < 300 km/s. We find a
clear break in the optical Tully-Fisher relation: field galaxies with Vc < 90
km/s fall below the relation defined by brighter galaxies. These faint galaxies
are however very gas rich; adding in the gas mass and plotting baryonic disk
mass Md = M* + Mg in place of luminosity restores a single linear relation. The
Tully-Fisher relation thus appears fundamentally to be a relation between
rotation velocity and total baryonic mass of the form Md = A Vc^4.Comment: 10 pages including 1 color figure. Accepted for publication in ApJ
Letter
Universality of Shot-Noise in Multiterminal Diffusive Conductors
We prove the universality of shot-noise in multiterminal diffusive conductors
of arbitrary shape and dimension for purely elastic scattering as well as for
hot electrons. Using a Boltzmann-Langevin approach we reduce the calculation of
shot-noise correlators to the solution of a diffusion equation. We show that
shot-noise in multiterminal conductors is a non-local quantity and that
exchange effects can occur without quantum phase coherence even at zero
electron temperature. Concrete numbers for shot-noise are given that can be
tested experimentally.Comment: 4 double-column pages, REVTeX, 1 eps figure embedded with eps
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