463 research outputs found
Responses of Private and Public Schools to Voucher Funding:The Czech and Hungarian Experience
A state monopoly in schooling followed the collapse of communism in Central Europe. The centrally planned system was abandoned. Systems comparable with educational voucher scheme, also known as school choice system, were introduced in the Czech Republic and Hungary in the early 1990s. The newly established system of school financing allocates public funds according to the number of students enrolled in a school. Accredited non-state schools, private and religious, are also eligible for public subsidies. The scope and the form of these reforms represent a unique opportunity to test conflicting hypotheses of proponents and opponents of the voucher scheme. In this empirical analysis, we test fundamental theoretical predictions of the voucher model. Specifically, we test: i) whether non-state schools are established at locations where the supply of educational opportunities provided by state schools is low or of low quality, ii) whether state and non-state schools in such a system respond to changes in demand for education, and iii) whether state schools respond to competition from non-state schools. We use detailed school level data on the whole population of schools and data on regional conditions. In our econometric model we estimate education value added, instead of relying on absolute quality of school graduates. We find that non-state school emerge at locations with excess demand and lower quality state schools. We also find that greater competition from non-state schools creates incentives for state schools with the result that state schools slightly improve the quality of educational inputs used and significantly improve their output, quality of graduates. As concerns the technical schools, we find that non-state schools react to regional labor market conditions in terms of technical branch premium and unemployment rate. We do not find such reactions to market signals by state schools. We introduce this analysis with a review of non-state schools' development in the Czech Republic and Hungary during the 1990s.educational finance; government expenditures and education; occupational choice; labor productivity
Prospects for identifying the sources of the Galactic cosmic rays with IceCube
We quantitatively address whether IceCube, a kilometer-scale neutrino
detector under construction at the South Pole, can observe neutrinos pointing
back at the accelerators of the Galactic cosmic rays. The photon flux from
candidate sources identified by the Milagro detector in a survey of the TeV sky
is consistent with the flux expected from a typical cosmic-ray generating
supernova remnant interacting with the interstellar medium. We show here that
IceCube can provide incontrovertible evidence of cosmic-ray acceleration in
these sources by detecting neutrinos. We find that the signal is optimally
identified by specializing to events with energies above 30 TeV where the
atmospheric neutrino background is low. We conclude that evidence for a
correlation between the Milagro and IceCube sky maps should be conclusive after
several years.Comment: 5 pages, 5 figures; part of the text and some figures have changed,
conclusions remain the same; equals journal versio
Results from Seven Years of AMANDA-II
AMANDA is a first-generation high energy neutrino telescope, which has taken
data at the South Pole in its final configuration since 2000. Results from
seven years of operation are presented here, including observation of the
atmopheric neutrino flux and searches for astrophysical neutrinos from cosmic
ray accelerators, gamma ray bursts, and dark matter annihilations. In 2007,
AMANDA was incorporated into the IceCube neutrino telescope, where its higher
density of instrumentation improves the low energy response. In the near
future, AMANDA will be replaced by the IceCube Deep Core, a purpose-built low
energy extension of IceCube.Comment: Presented at Neutrino 2008, Christchurch, New Zealan
Report of the 2005 Snowmass Top/QCD Working Group
This report discusses several topics in both top quark physics and QCD at an
International Linear Collider (ILC). Issues such as measurements at the
threshold, including both theoretical and machine requirements, and
the determination of electroweak top quark couplings, are reviewed. New results
concerning the potential of a 500 GeV collider for measuring
couplings and the top quark Yukawa coupling are presented. The status of higher
order QCD corrections to jet production cross sections, heavy quark form
factors, and longitudinal gauge boson scattering, needed for percent-level
studies at the ILC, are reviewed. A new study of the measurement of the
hadronic structure of the photon at a collider is presented. The
effects on top quark properties from several models of new physics, including
composite models, Little Higgs theories, and CPT violation, are studied.Comment: 39 pages, many figs; typos fixed and refs added. Contributed to the
2005 International Linear Collider Physics and Detector Workshop and 2nd ILC
Accelerator Workshop, Snowmass, Colorado, 14-27 Aug 200
A quantitative model for estimating risk from multiple interacting natural hazards: an application to northeast Zhejiang, China
Multi-hazard risk assessment is a major concern in risk analysis, but most approaches do not consider all hazard interactions when calculating possible losses. We address this problem by developing an improved quantitative model - Model for multi-hazard Risk assessment with a consideration of Hazard Interaction (MmhRisk-HI). This model calculates the possible loss caused by multiple hazards, with an explicit consideration of interaction between those hazards. There are two main components to the model. In the first, based on the hazard-forming environment, relationships among hazards are classified into four types for calculation of the exceedance probability of multiple hazards occurrence. In the second, a Bayesian network is used to calculate possible loss caused by multiple hazards with different exceedance probabilities. A multi-hazard risk map can then be drawn addressing the probability of multi-hazard occurrence and corresponding loss. This model was applied in northeast Zhejiang, China and validated by comparison against an observed multi-hazard sequence. The validation results show that the model can more effectively represent the real world, and that the modelled outputs, possible loss caused by multiple hazards, are reliable. The outputs can additionally help to identify areas at greatest risk, and allows a determination of the factors that contribute to that risk, and hence the model can provide useful further information for planners and decision-makers concerned with risk mitigation
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