12,167 research outputs found
Russia: firm entry and survival
Why are there so few new firms in Russia? This paper provides further insights into the specific Russian business landscape and how it impacts the low level of new firm entry. As this paper indicates, internationally comparative data does not provide many clues since in terms of purely formal constraints, Russia fairs comparatively well. However, a deeper analysis uncovers the informal impediments associated with the lack of rule of law, inconsistent enforcement of regulations, regional autonomy and pervasive corruption. These informal constraints form impediments not only for new firm creation but also for firm survival and firm exit. Since not all industries are affected in the same way, this paper includes a comparison between a new and traditional industrial sector: software development and the textile industry
Programmable physiological infusion
A programmable physiological infusion device and method are provided wherein a program source, such as a paper tape, is used to actuate an infusion pump in accordance with a desired program. The system is particularly applicable for dispensing calcium in a variety of waveforms
Programmed physiological infusion system
Infusion system delivers incremental volumes from a reservoir with a piston pump at a rate that varies in time and follows the envelope of a preprogrammed curve
Investigation of in-plane nuclear field formation in single self-assembled quantum dots
We studied the formation mechanism of the in-plane nuclear field in single
self-assembled InAlAs/AlGaAs quantum dots.
The Hanle curves with an anomalously large width and hysteretic behavior at the
critical transverse magnetic field were observed in many single quantum dots
grown in the same QD sample. In order to explain the anomalies in the Hanle
curve indicating the formation of a large nuclear field perpendicular to the
photo-injected electron spin polarization, we propose a new model based on the
current phenomenological model for dynamic nuclear spin polarization. The model
includes the effects of the nuclear quadrupole interaction and the sign
inversion between in-plane and out-of-plane g-factors, and the model
calculations reproduce successfully the characteristics of the observed
anomalies in the Hanle curves.Comment: 7 pages, 6 figure
Temperature dependence of the spin and orbital magnetization density in around the spin-orbital compensation point
Non-resonant ferromagnetic x-ray diffraction has been used to separate the
spin and orbital contribution to the magnetization density of the proposed
zero-moment ferromagnet . The alignment of the
spin and orbital moments relative to the net magnetization shows a sign
reversal at 84K, the compensation temperature. Below this temperature the
orbital moment is larger than the spin moment, and vice versa above it. This
result implies that the compensation mechanism is driven by the different
temperature dependencies of the spin and orbital moments. Specific heat
data indicate that the system remains ferromagnetically ordered throughout
Phenomenological Analysis of and Elastic Scattering Data in the Impact Parameter Space
We use an almost model-independent analytical parameterization for and
elastic scattering data to analyze the eikonal, profile, and
inelastic overlap functions in the impact parameter space. Error propagation in
the fit parameters allows estimations of uncertainty regions, improving the
geometrical description of the hadron-hadron interaction. Several predictions
are shown and, in particular, the prediction for inelastic overlap
function at TeV shows the saturation of the Froissart-Martin
bound at LHC energies.Comment: 15 pages, 16 figure
Precise measurements of electron and hole g-factors of single quantum dots by using nuclear field
We demonstrated the cancellation of the external magnetic field by the
nuclear field at one edge of the nuclear polarization bistability in single
InAlAs quantum dots. The cancellation for the electron Zeeman splitting gives
the precise value of the hole g-factor. By combining with the exciton g-factor
that is obtained from the Zeeman splitting for linearly polarized excitation,
the magnitude and sign of the electron and hole g-factors in the growth
direction are evaluated.Comment: 3 pages, 2 figure
The monitoring system for the aerogel Cherenkov counter of the BELLE detector
We report on a design and performances of a monitoring system developed for
the aerogel Cherenkov counters (ACC) of the BELLE detector. The system consists
of blue LEDs, a diffuser box, and optical distributors which distribute the LED
light to the ACC modules. The employed LED (NSPB series) has been observed to
have high reliability on the long term stability and the temprature dependence.
The diffuser box is employed to reduce the intrinsic non-uniformity of the LED
light intensity. The overall performances of the present monitoring system on
uniformity and intensity of the light output have been found to satisfy all the
requirements for the monitoring.Comment: 24 pages, LaTeX, 13 eps figures, to be published in Nucl. Instrum.
and Meth. A. Postscript file (4.5 MB) is available at
http://www-hep.phys.saga-u.ac.jp/~murakami/paper/xxx_accmon.p
Hybrid functionals within the all-electron FLAPW method: implementation and applications of PBE0
We present an efficient implementation of the PBE0 hybrid functional within
the full-potential linearized augmented-plane-wave (FLAPW) method. The
Hartree-Fock exchange term, which is a central ingredient of hybrid
functionals, gives rise to a computationally expensive nonlocal potential in
the one-particle Schroedinger equation. The matrix elements of this exchange
potential are calculated with the help of an auxiliary basis that is
constructed from products of FLAPW basis functions. By representing the Coulomb
interaction in this basis the nonlocal exchange term becomes a Brillouin-zone
(BZ) sum over vector-matrix-vector products. We show that the Coulomb matrix
can be made sparse by a suitable unitary transformation of the auxiliary basis,
which accelerates the computation of the vector-matrix-vector products
considerably. Additionally, we exploit spatial and time-reversal symmetry to
identify the nonvanishing exchange matrix elements in advance and to restrict
the k summations for the nonlocal potential to an irreducible set of k points.
Favorable convergence of the self-consistent-field cycle is achieved by a
nested density-only and density-matrix iteration scheme. We discuss the
convergence with respect to the parameters of our numerical scheme and show
results for a variety of semiconductors and insulators, including oxide
materials, where the PBE0 hybrid functional improves the band gaps and the
description of localized states in comparison with the PBE functional.
Furthermore, we find that in contrast to conventional local
exchange-correlation functionals ferromagnetic EuO is correctly predicted to be
a semiconductor.Comment: 15 pages, 6 figures, 2 table
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