6,269 research outputs found
Macroeconomics of the New and the Used Car Markets
The new cars of today are used cars of tomorrow and some people assume a competition between new and used markets. There are numerous, preconceived ideas and academic theories regarding the interactions between primary and secondary markets. To investigate the relations, we provide a macroeconomic analysis of the French, the British and the US car markets. We aim at answering the following questions. What are the interactions between the new and the second-hand car markets? Can we use the interactions to estimate the car prices of tomorrow? Our results indicate that the relations appear limited for France and the UK, whereas the US market faces a Scitovscky mechanism, defined by constant disequilibrium and multiple interactions between primary and secondary markets. Furthermore, they illustrate that the interrelations are not strong enough to fully explain and forecast market patterns.second-hand market, automotive market, prices, causality, cyclical correlations, VAR.
Role of the plasma-electrode bias and the transverse magnetic field upon H-Â ion extraction in the negative ion source
Non peer reviewedPublisher PD
New Constraints on the Escape of Ionizing Photons From Starburst Galaxies Using Ionization-Parameter Mapping
The fate of ionizing radiation in starburst galaxies is key to understanding
cosmic reionization. However, the galactic parameters on which the escape
fraction of ionizing radiation depend are not well understood.
Ionization-parameter mapping provides a simple, yet effective, way to study the
radiative transfer in starburst galaxies. We obtain emission-line ratio maps of
[SIII]/[SII] for six, nearby, dwarf starbursts: NGC 178, NGC 1482, NGC 1705,
NGC 3125, NGC 7126, and He 2-10. The narrow-band images are obtained with the
Maryland-Magellan Tunable Filter at Las Campanas Observatory. Using these data,
we previously reported the discovery of an optically thin ionization cone in
NGC 5253, and here we also discover a similar ionization cone in NGC 3125. This
latter cone has an opening angle of 40+/-5 degrees (0.4 ster), indicating that
the passageways through which ionizing radiation may travel correspond to a
small solid angle. Additionally, there are three sample galaxies that have
winds and/or superbubble activity, which should be conducive to escaping
radiation, yet they are optically thick. These results support the scenario
that an orientation bias limits our ability to directly detect escaping Lyman
continuum in many starburst galaxies. A comparison of the star-formation
properties and histories of the optically thin and thick galaxies is consistent
with the model that high escape fractions are limited to galaxies that are old
enough (> 3 Myr) for mechanical feedback to have cleared optically thin
passageways in the ISM, but young enough (< 5 Myr) that the ionizing stars are
still present.Comment: Accepted for publication in Ap
Unboundedness of adjacency matrices of locally finite graphs
Given a locally finite simple graph so that its degree is not bounded, every
self-adjoint realization of the adjacency matrix is unbounded from above. In
this note we give an optimal condition to ensure it is also unbounded from
below. We also consider the case of weighted graphs. We discuss the question of
self-adjoint extensions and prove an optimal criterium.Comment: Typos corrected. Examples added. Cute drawings. Simplification of the
main condition. Case of the weight tending to zero more discussed
Numerical Contractor Renormalization Method for Quantum Spin Models
We demonstrate the utility of the numerical Contractor Renormalization (CORE)
method for quantum spin systems by studying one and two dimensional model
cases. Our approach consists of two steps: (i) building an effective
Hamiltonian with longer ranged interactions using the CORE algorithm and (ii)
solving this new model numerically on finite clusters by exact diagonalization.
This approach, giving complementary information to analytical treatments of the
CORE Hamiltonian, can be used as a semi-quantitative numerical method. For
ladder type geometries, we explicitely check the accuracy of the effective
models by increasing the range of the effective interactions. In two dimensions
we consider the plaquette lattice and the kagome lattice as non-trivial test
cases for the numerical CORE method. On the plaquette lattice we have an
excellent description of the system in both the disordered and the ordered
phases, thereby showing that the CORE method is able to resolve quantum phase
transitions. On the kagome lattice we find that the previously proposed twofold
degenerate S=1/2 basis can account for a large number of phenomena of the spin
1/2 kagome system. For spin 3/2 however this basis does not seem to be
sufficient anymore. In general we are able to simulate system sizes which
correspond to an 8x8 lattice for the plaquette lattice or a 48-site kagome
lattice, which are beyond the possibilities of a standard exact diagonalization
approach.Comment: 15 page
Numerical study of magnetization plateaux in the spin-1/2 kagome Heisenberg antiferromagnet
We clarify the existence of several magnetization plateaux for the kagome
antiferromagnetic Heisenberg model in a magnetic field. Using
approximate or exact localized magnon eigenstates, we are able to describe in a
similar manner the plateau states that occur for magnetization per site
, , and of the saturation value. These results are confirmed
using large-scale Exact Diagonalization on lattices up to 63 sites.Comment: 8 pages; minor changes; published versio
An Ionization Cone in the Dwarf Starburst Galaxy NGC 5253
There are few observational constraints on how the escape of ionizing photons
from starburst galaxies depends on galactic parameters. Here, we report on the
first major detection of an ionization cone in NGC 5253, a nearby starburst
galaxy. This high-excitation feature is identified by mapping the emission-line
ratios in the galaxy using [S III] lambda 9069, [S II] lambda 6716, and H_alpha
narrow-band images from the Maryland-Magellan Tunable Filter at Las Campanas
Observatory. The ionization cone appears optically thin, which is suggestive of
the escape of ionizing photons. The cone morphology is narrow with an estimated
solid angle covering just 3% of 4pi steradians, and the young, massive clusters
of the nuclear starburst can easily generate the radiation required to ionize
the cone. Although less likely, we cannot rule out the possibility of an
obscured AGN source. An echelle spectrum along the minor axis shows complex
kinematics that are consistent with outflow activity. The narrow morphology of
the ionization cone supports the scenario that an orientation bias contributes
to the difficulty in detecting Lyman continuum emission from starbursts and
Lyman break galaxies.Comment: 5 pages, 4 figures, Accepted to ApJ Letter
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