14,565 research outputs found
An analysis of Jupiter data from the RAE-1 satellite
The analysis of Radio Astronomy Explorer Satellite data are presented. Radio bursts from Jupiter are reported in the frequency range 4700 KHz to 45 KHz. Strong correlations with lo were found at 4700, 3930, and 2200 KHz, while an equally strong Europa effect was observed at 1300, 900, and 700 KHz. Histograms indicating the relative probability and the successful identification of Jupiter activity were plotted, using automatic computer and visual search techniques
Nano-Engineering Defect Structures on Graphene
We present a new way of nano-engineering graphene using defect domains. These
regions have ring structures that depart from the usual honeycomb lattice,
though each carbon atom still has three nearest neighbors. A set of stable
domain structures is identified using density functional theory (DFT),
including blisters, ridges, ribbons, and metacrystals. All such structures are
made solely out of carbon; the smallest encompasses just 16 atoms. Blisters,
ridges and metacrystals rise up out of the sheet, while ribbons remain flat. In
the vicinity of vacancies, the reaction barriers to formation are sufficiently
low that such defects could be synthesized through the thermally activated
restructuring of coalesced adatoms.Comment: 4 pages, 5 figure
Engineering and Manipulating Exciton Wave Packets
When a semiconductor absorbs light, the resulting electron-hole superposition
amounts to a uncontrolled quantum ripple that eventually degenerates into
diffusion. If the conformation of these excitonic superpositions could be
engineered, though, they would constitute a new means of transporting
information and energy. We show that properly designed laser pulses can be used
to create such excitonic wave packets. They can be formed with a prescribed
speed, direction and spectral make-up that allows them to be selectively
passed, rejected or even dissociated using superlattices. Their coherence also
provides a handle for manipulation using active, external controls. Energy and
information can be conveniently processed and subsequently removed at a distant
site by reversing the original procedure to produce a stimulated emission. The
ability to create, manage and remove structured excitons comprises the
foundation for opto-excitonic circuits with application to a wide range of
quantum information, energy and light-flow technologies. The paradigm is
demonstrated using both Tight-Binding and Time-Domain Density Functional Theory
simulations.Comment: 16 figure
Embedded Ribbons of Graphene Allotropes: An Extended Defect Perspective
Four fundamental dimer manipulations can be used to produce a variety of
localized and extended defect structures in graphene. Two-dimensional templates
result in graphene allotropes, here viewed as extended defects, which can
exhibit either metallic or semiconducting electrical character. \emph{Embedded
allotropic ribbons}--i.e. thin swaths of the new allotropes--can also be
created within graphene. We examine these ribbons and find that they maintain
the electrical character of their parent allotrope even when only a few atoms
in width. Such extended defects may facilitate the construction of monolithic
electronic circuitry.Comment: 24 pages, 21 figure
Growth of primordial black holes in a universe containing a massless scalar field
The evolution of primordial black holes in a flat Friedmann universe with a
massless scalar field is investigated in fully general relativistic numerical
relativity. A primordial black hole is expected to form with a scale comparable
to the cosmological apparent horizon, in which case it may go through an
initial phase with significant accretion. However, if it is very close to the
cosmological apparent horizon size, the accretion is suppressed due to general
relativistic effects. In any case, it soon gets smaller than the cosmological
horizon and thereafter it can be approximated as an isolated vacuum solution
with decaying mass accretion. In this situation the dynamical and inhomogeneous
scalar field is typically equivalent to a perfect fluid with a stiff equation
of state . The black hole mass never increases by more than a factor of
two, despite recent claims that primordial black holes might grow substantially
through accreting quintessence. It is found that the gravitational memory
scenario, proposed for primordial black holes in Brans-Dicke and scalar-tensor
theories of gravity, is highly unphysical.Comment: 24 pages, accepted for publication in Physical Review
Stability criterion for self-similar solutions with a scalar field and those with a stiff fluid in general relativity
A stability criterion is derived in general relativity for self-similar
solutions with a scalar field and those with a stiff fluid, which is a perfect
fluid with the equation of state . A wide class of self-similar
solutions turn out to be unstable against kink mode perturbation. According to
the criterion, the Evans-Coleman stiff-fluid solution is unstable and cannot be
a critical solution for the spherical collapse of a stiff fluid if we allow
sufficiently small discontinuity in the density gradient field in the initial
data sets. The self-similar scalar-field solution, which was recently found
numerically by Brady {\it et al.} (2002 {\it Class. Quantum. Grav.} {\bf 19}
6359), is also unstable. Both the flat Friedmann universe with a scalar field
and that with a stiff fluid suffer from kink instability at the particle
horizon scale.Comment: 15 pages, accepted for publication in Classical and Quantum Gravity,
typos correcte
Primordial black hole evolution in tensor-scalar cosmology
A perturbative analysis shows that black holes do not remember the value of
the scalar field at the time they formed if changes in
tensor-scalar cosmology. Moreover, even when the black hole mass in the
Einstein frame is approximately unaffected by the changing of , in the
Jordan-Fierz frame the mass increases. This mass increase requires a reanalysis
of the evaporation of primordial black holes in tensor-scalar cosmology. It
also implies that there could have been a significant magnification of the
(Jordan-Fierz frame) mass of primordial black holes.Comment: 4 pages, revte
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