34,397 research outputs found
Objective structured clinical examinations (OSCEs), psychiatry and the clinical assessment of skills and competencies (CASC) : same evidence, different judgement
Background: The Objective Structured Clinical Examination (OSCE), originally developed in the 1970âs, has been
hailed as the "gold standard" of clinical assessments for medical students and is used within medical schools
throughout the world. The Clinical assessment of Skills and Competencies (CASC) is an OSCE used as a clinical
examination gateway, granting access to becoming a senior Psychiatrist in the UK.
Discussion: Van der Vleutenâs utility model is used to examine the CASC from the viewpoint of a senior
psychiatrist. Reliability may be equivalent to more traditional examinations. Whilst the CASC is likely to have
content validity, other forms of validity are untested and authenticity is poor. Educational impact has the potential
to change facets of psychiatric professionalism and influence future patient care. There are doubts about
acceptability from candidates and more senior psychiatrists.
Summary: Whilst OSCEs may be the best choice for medical student examinations, their use in post graduate
psychiatric examination in the UK is subject to challenge on the grounds of validity, authenticity and educational
impact
On the Solution to the Polonyi Problem with (10~TeV) Gravitino Mass in Supergravity
We study the solution to the Polonyi problem where the Polonyi field weighs
as and decays just before the primordial nucleosynthesis. It
is shown that in spite of a large entropy production by the Polonyi field
decay, one can naturally explain the present value of the baryon-to-entropy
ratio, if the Affleck-Dine mechanism for
baryogenesis works. It is pointed out, however, that there is another
cosmological problem related to the abundance of the lightest superparticles
produced by the Polonyi decay
Photoproduction of mesons in ultraperipheral heavy ion collisions at energies available at the BNL Relativistic Heavy Ion Collider (RHIC) and CERN Large Hadron Collider (LHC)
We investigate the photoproduction of mesons in ultraperipheral heavy
ion collisions at RHIC and LHC energies in the dipole approach and within two
phenomenological models based on the the Color Glass Condensate (CGC)
formalism. We estimate the integrated cross section and rapidity distribution
for meson production and compare our predictions with the data from the STAR
collaboration. In particular, we demonstrate that the total cross section at
RHIC is strongly dependent on the energy behavior of the dipole-target cross
section at low energies, which is not well determined in the dipole approach.
In contrast, the predictions at midrapidities at RHIC and in the full rapidity
at LHC are under theoretical control and can be used to test the QCD dynamics
at high energies.Comment: 6 pages, 5 figures, 1 table. Improved version to be published in
Physical Review
Accelerator Constraints on Neutralino Dark Matter
The constraints on neutralino dark matter \chi obtained from accelerator
searches at LEP, the Fermilab Tevatron and elsewhere are reviewed, with
particular emphasis on results from LEP 1.5. These imply within the context of
the minimal supersymmetric extension of the Standard Model that m_\chi \ge 21.4
GeV if universality is assumed, and yield for large tan\beta a significantly
stronger bound than is obtained indirectly from Tevatron limits on the gluino
mass. We update this analysis with preliminary results from the first LEP 2W
run, and also preview the prospects for future sparticle searches at the LHC.Comment: Presented by J. Ellis at the Workshop on the Identification of Dark
Matter, Sheffield, September, 1996. 14 pages; Latex; 12 Fig
Prospects for Discovering Supersymmetry at the LHC
Supersymmetry is one of the best-motivated candidates for physics beyond the
Standard Model that might be discovered at the LHC. There are many reasons to
expect that it may appear at the TeV scale, in particular because it provides a
natural cold dark matter candidate. The apparent discrepancy between the
experimental measurement of g_mu - 2 and the Standard model value calculated
using low-energy e+ e- data favours relatively light sparticles accessible to
the LHC. A global likelihood analysis including this, other electroweak
precision observables and B-decay observables suggests that the LHC might be
able to discover supersymmetry with 1/fb or less of integrated luminosity. The
LHC should be able to discover supersymmetry via the classic missing-energy
signature, or in alternative phenomenological scenarios. The prospects for
discovering supersymmetry at the LHC look very good.Comment: 8 pages, 11 figure
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