75 research outputs found
Social Status, Opportunity And Repeat Victimization: The Unequal Distribution Of Safety
This research examines the relationship between victimization, social status and opportunity. More specifically, the effects of social status and opportunity on repeat victimization are examined. How does social status and opportunity simultaneously effect repeat victimization? This report consists of a secondary data analysis of the 2004 and 2009 Canadian Victimization Survey with a combined sample size of 43,200 people who were interviewed by telephone. Opportunity either partially or completely mediated the effects of social status on repeat victimization; however for certain subsamples neither opportunity nor social status explained repeat victimization. Additionally, the groups whose victimization was not explained by opportunity or social status also reported the highest rates of victimization amongst all of the subsamples. LGBT individuals in Canada experience the highest rates of victimization followed by Aboriginals and neither social status nor opportunity predicted their victimization
The absolute position of a resonance peak
It is common practice in scattering theory to correlate between the position
of a resonance peak in the cross section and the real part of a complex energy
of a pole of the scattering amplitude. In this work we show that the resonance
peak position appears at the absolute value of the pole's complex energy rather
than its real part. We further demonstrate that a local theory of resonances
can still be used even in cases previously thought impossible
Nanocomposites of ZnS and poly-(dimethyl)-block-(phenyl)siloxane as a new high-refractive-index polymer media
In the present paper, we describe a new and original method to obtain transparent, siloxane-based composites, with high refractive index (up to 1.68). The method is based on the decomposition of Zn-siloxane, mixed with a poly-(dimethyl)-block-(phenyl)siloxane matrix in different ratios. It was found that after treatment of such mixed metal-containing polymer blend with H2S, the nanoparticles of ZnS are formed, with the size in a 1- to 5-nm range, which allow effective increase of the refractive index of the nanocomposite mixture with poly-(dimethyl)-block-(phenyl)siloxane without loss of film transparency. We succeded to increase the refractive index from 1.54 (pure matrix) up to 1.68 (composite with a ZnS content of 4.6 vol.%). The siloxane-based compositions are optically transparent, which makes it possible to use them as light-emitting diodes or solar cell sealants or adhesives
Inner products of resonance solutions in 1-D quantum barriers
The properties of a prescription for the inner products of the resonance
(Gamow states), scattering (Dirac kets), and bound states for 1-dimensional
quantum barriers are worked out. The divergent asypmtotic behaviour of the
Gamow states is regularized using a Gaussian convergence factor first
introduced by Zel'dovich. With this prescription, most of these states (with
discrete complex energies) are found to be orthogonal to each other, to the
bound states, and to the Dirac kets, except when they are neighbors, in which
case the inner product is divergent. Therefore, as it happens for the continuum
scattering states, the norm of the resonant ones remains non-calculable. Thus,
they exhibit properties half way between the (continuum real) Dirac-delta
orthogonality and the (discrete real) Kronecker-delta orthogonality of the
bound states.Comment: 13 pages, 2 figure
Resonance solutions of the nonlinear Schr\"odinger equation in an open double-well potential
The resonance states and the decay dynamics of the nonlinear Schr\"odinger
(or Gross-Pitaevskii) equation are studied for a simple, however flexible model
system, the double delta-shell potential. This model allows analytical
solutions and provides insight into the influence of the nonlinearity on the
decay dynamics. The bifurcation scenario of the resonance states is discussed,
as well as their dynamical stability properties. A discrete approximation using
a biorthogonal basis is suggested which allows an accurate description even for
only two basis states in terms of a nonlinear, nonhermitian matrix problem.Comment: 21 pages, 14 figure
Multi-barrier resonant tunneling for the one-dimensional nonlinear Schr\"odinger Equation
For the stationary one-dimensional nonlinear Schr\"odinger equation (or
Gross-Pitaevskii equation) nonlinear resonant transmission through a finite
number of equidistant identical barriers is studied using a (semi-) analytical
approach. In addition to the occurrence of bistable transmission peaks known
from nonlinear resonant transmission through a single quantum well
(respectively a double barrier) complicated (looped) structures are observed in
the transmission coefficient which can be identified as the result of symmetry
breaking similar to the emergence of self-trapping states in double well
potentials. Furthermore it is shown that these results are well reproduced by a
nonlinear oscillator model based on a small number of resonance eigenfunctions
of the corresponding linear system.Comment: 22 pages, 11 figure
Shell Model in the Complex Energy Plane
This work reviews foundations and applications of the complex-energy
continuum shell model that provides a consistent many-body description of bound
states, resonances, and scattering states. The model can be considered a
quasi-stationary open quantum system extension of the standard configuration
interaction approach for well-bound (closed) systems.Comment: Topical Review, J. Phys. G, Nucl. Part. Phys, in press (2008
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