38,587 research outputs found
How Do We See the Nuclear Region (r < 0.1 pc) of Narrow-Line Seyfert 1 Galaxies?
We propose two statistical tests to investigate how we see the nuclear region
(r < 0.1 pc) of Narrow-Line Seyfert 1 galaxies (NLS1s). 1) The high-ionization
nuclear emission-line region (HINER) test: Seyfert 1 galaxies (S1s) have
systematically higher flux ratios of [Fe VII] lambda 6087 to [O III] lambda
5007 than Seyfert 2 galaxies (S2s). This is interpreted in that a significant
part of the [Fe VII] lambda 6087 emission arises from the inner walls of dusty
tori that cannot be seen in S2s (Murayama & Taniguchi 1998a,b). 2) The
mid-infrared test: S1s have systematically higher flux ratios of the L band
(3.5 micrometer) to the IRAS 25 micrometer band than S2s. This is also
interpreted in that a significant part of the L band emission arises from the
inner walls of dusty tori, because the tori are optically thick enough to
absorb the L band emission if the tori are viewed nearly edge on (Murayama et
al. 2000). Applying these tests to a sample of NLS1s, we have found that the
NLS1s possibly have nearly the same properties as S1s.Comment: Contributed talk presented at the Joint MPE,AIP,ESO workshop on
NLS1s, Bad Honnef, Dec. 1999, to appear in New Astronomy Reviews; also
available at http://wave.xray.mpe.mpg.de/conferences/nls1-worksho
Slow-Roll Suppression of Adiabatic Instabilities in Coupled Scalar Field-Dark Matter Models
We study the evolution of linear density perturbations in the context of
interacting scalar field-dark matter cosmologies, where the presence of the
coupling acts as a stabilization mechanism for the runaway behavior of the
scalar self-interaction potential as in the case of the Chameleon model. We
show that in the "adiabatic" background regime of the system the rise of
unstable growing modes of the perturbations is suppressed by the slow-roll
dynamics of the field. Furthermore the coupled system behaves as an
inhomogeneous adiabatic fluid. In contrast instabilities may develop for large
values of the coupling constant, or along non-adiabatic solutions,
characterized by a period of high-frequency dumped oscillations of the scalar
field. In the latter case the dynamical instabilities of the field
fluctuations, which are typical of oscillatory scalar field regimes, are
amplified and transmitted by the coupling to dark matter perturbations.Comment: 6 pages, 3 figures; minor changes, corrected figure 2, added
references, matches PRD published versio
Dijet Angular Distributions at the ATLAS Experiment
Dijet angular distributions from the first proton-proton collisions at 7 TeV
have been measured with the ATLAS detector at the LHC. The dataset used
corresponds to a total integrated luminosity of 61 7 nb. Comparing
the distributions with Monte Carlo based QCD predictions shows good agreement
between data and QCD. The distributions are used to set limits on the existence
of quark compositeness.Comment: on behalf of the ATLAS Collaboration HCP 2010, Toront
Hydrogen bonding characterization in water and small molecules
The prototypical Hydrogen bond in water dimer and Hydrogen bonds in the
protonated water dimer, in other small molecules, in water cyclic clusters, and
in ice, covering a wide range of bond strengths, are theoretically investigated
by first-principles calculations based on the Density Functional Theory,
considering a standard Generalized Gradient Approximation functional but also,
for the water dimer, hybrid and van-der-Waals corrected functionals. We compute
structural, energetic, and electrostatic (induced molecular dipole moments)
properties. In particular, Hydrogen bonds are characterized in terms of
differential electron densities distributions and profiles, and of the shifts
of the centres of Maximally localized Wannier Functions. The information from
the latter quantities can be conveyed into a single geometric bonding parameter
that appears to be correlated to the Mayer bond order parameter and can be
taken as an estimate of the covalent contribution to the Hydrogen bond. By
considering the cyclic water hexamer and the hexagonal phase of ice we also
elucidate the importance of cooperative/anticooperative effects in
Hydrogen-bonding formation.Comment: 11 figure
The innocuousness of adiabatic instabilities in coupled scalar field-dark matter models
Non-minimally coupled scalar field models suffer of unstable growing modes at
the linear perturbation level. The nature of these instabilities depends on the
dynamical state of the scalar field. In particular in systems which admit
adiabatic solutions, large scale instabilities are suppressed by the slow-roll
dynamics of the field. Here we review these results and present a preliminary
likelihood data analysis suggesting that along adiabatic solutions coupled
models with coupling of order of gravitational strength can provide viable
cosmological scenarios satisfying constraints from SN Ia, CMB and large scale
structure data.Comment: 6 pages, 4 figures; to be published in the AIP proceedings of the
'Invisible Universe International Conference', UNESCO-Paris, June 29-July 3,
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