9,168 research outputs found
Finite Volume Effects and Quenched Chiral Logarithms
We have measured the valence pion mass and the valence chiral condensate on
lattice configurations generated with and without dynamical fermions. We find
that our data and that of others is well represented by a linear relationship
between and the valence quark mass, with a non-zero intercept. For
our data, we relate the intercept to finite volume effects visible in the
valence chiral condensate. We see no evidence for the singular behavior
expected from quenched chiral logarithms.Comment: 5 pages, Latex with included macro. 4 encapsulated postscript figures
included. Contribution to Lattice '9
Editorial: Young people’s involvement in policymaking: Perceiving young people as part of the solution and not part of the problem
This special issue is focused on young people’s involvement in shaping health and social care policy leading to improvements in health and wellbeing impact/outcomes for young people, especially in response to mitigating the effects of COVID-19. The transition from childhood to adulthood is an important, fascinating period of life. Young people between the ages of 10 and 25 need support and special services, especially those who may be marginalised. They have different patterns of need from younger children and older adults. This special issue showcases research that has helped to improve health outcomes for young people, including developing policy initiatives that focus more specifically on 10 to 25 year olds, implementing age-appropriate health promotion and early interventions, commissioning services that meet the unique needs of young people, particularly during transition, and taking specific actions to reduce health inequalities by addressing the social determinants of health in this age group. Good health for young people is central to their wellbeing, and it forms the bedrock for good health in later life. We wanted to learn about projects and approaches in which young people have helped to ensure health and social care policy is informed, influenced and shaped by the views and lived experiences of young people
Risk and Utility in Portfolio Optimization
Modern portfolio theory(MPT) addresses the problem of determining the optimum
allocation of investment resources among a set of candidate assets. In the
original mean-variance approach of Markowitz, volatility is taken as a proxy
for risk, conflating uncertainty with risk. There have been many subsequent
attempts to alleviate that weakness which, typically, combine utility and risk.
We present here a modification of MPT based on the inclusion of separate risk
and utility criteria. We define risk as the probability of failure to meet a
pre-established investment goal. We define utility as the expectation of a
utility function with positive and decreasing marginal value as a function of
yield. The emphasis throughout is on long investment horizons for which
risk-free assets do not exist. Analytic results are presented for a Gaussian
probability distribution. Risk-utility relations are explored via empirical
stock-price data, and an illustrative portfolio is optimized using the
empirical data.Comment: 10 pages, 1 figure, presented at 2002 Conference on Econophysics in
Bali Indonesi
Enhanced chiral logarithms in partially quenched QCD
I discuss the properties of pions in ``partially quenched'' theories, i.e.
those in which the valence and sea quark masses, and , are
different. I point out that for lattice fermions which retain some chiral
symmetry on the lattice, e.g. staggered fermions, the leading order prediction
of the chiral expansion is that the mass of the pion depends only on , and
is independent of . This surprising result is shown to receive corrections
from loop effects which are of relative size , and which thus
diverge when the valence quark mass vanishes. Using partially quenched chiral
perturbation theory, I calculate the full one-loop correction to the mass and
decay constant of pions composed of two non-degenerate quarks, and suggest
various combinations for which the prediction is independent of the unknown
coefficients of the analytic terms in the chiral Lagrangian. These results can
also be tested with Wilson fermions if one uses a non-perturbative definition
of the quark mass.Comment: 14 pages, 3 figures, uses psfig. Typos in eqs (18)-(20) corrected
(alpha_4 is replaced by alpha_4/2
Quantization of Fayet-Iliopoulos Parameters in Supergravity
In this short note we discuss quantization of the Fayet-Iliopoulos parameter
in supergravity theories. We argue that in supergravity, the Fayet-Iliopoulos
parameter determines a lift of the group action to a line bundle, and such
lifts are quantized. Just as D-terms in rigid N=1 supersymmetry are interpreted
in terms of moment maps and symplectic reductions, we argue that in
supergravity the quantization of the Fayet-Iliopoulos parameter has a natural
understanding in terms of linearizations in geometric invariant theory (GIT)
quotients, the algebro-geometric version of symplectic quotients.Comment: 21 pages, utarticle class; v2: typos and tex issue fixe
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