760 research outputs found
Reduction of couplings in the MSSM
We present an application of the reduction of couplings program in the
minimal supersymmetric Standard Model (MSSM). We investigate if a functional
relation between and gauge couplings can be realized
which is Renormalization Group Invariant (RGI). Following the same procedure
for the top and bottom Yukawa couplings we end up with a prediction of a narrow
window for tan, which is one of the basic parameters that determine the
light Higgs mass.Comment: 10 pages, 3 figures, Contribution for the proceedings of the Corfu
Summer Institute 201
One Loop Graviton Self-Energy In A Locally De Sitter Background
The graviton tadpole has recently been computed at two loops in a locally de
Sitter background. We apply intermediate results of this work to exhibit the
graviton self-energy at one loop. This quantity is interesting both to check
the accuracy of the first calculation and to understand the relaxation effect
it reveals. In the former context we show that the self-energy obeys the
appropriate Ward identity. We also show that its flat space limit agrees with
the flat space result obtained by Capper in what should be the same gauge.Comment: 35 pages, plain TeX, 4 Postscript files, uses psfig.sty, revised June
1996 for publication in Physical Review
A Newtonian Model for the Quantum Gravitational Back-Reaction on Inflation
Quantum gravitational back-reaction offers a simultaneous explanation for why
the cosmological constant is so small and a natural model of inflation in which
scalars play no role. In this talk I review previous work and present a simple
model of the mechanism in which the induced stress tensor behaves like negative
vacuum energy with a density proportional to . The model also highlights the essential role of
causality in back-reaction.Comment: 4 pages, LaTeX 2.6, no figures. Talk given at the International
Meeting on Quantum Gravity and Spectral Geometry, Naples, Italy, July 2-7,
200
Science and Technology Parks in Two Lagging Regions of Spain: A Comparative Evaluation Using an Innovation Network Approach
Science and Technology Parks (STPs) have been widely used as innovation support and regional development instruments in most European countries. In Objective 1 regions of South Europe STPs projects were developed during the 90s through regional, national or EU structural funds as tools for promoting innovation and technology upgrade. Most existing studies cast doubt on the effectiveness of parks in achieving their goals, focussing on the traditional measures of the parks added-value (profitability and growth) to the tenant companies, the university-industry linkages developed. However, more recent developments of territorial innovation models stress the role of networks and interactions for knowledge creation and diffusion. While these approaches imply that the Parks – in their strict spatial nature – may become redundant in a networked space, they can also be used to identify additional performance assessment criteria focusing on the role of the park for the development of interactions, linkages and cooperation inside as well as outside its area. The quantity and quality of linkages inside and outside the STP area and its operation as an innovation cooperation promoter in the regional and broader space are used in this assessment. The present work assesses the performance of STPs in Objective 1 regions of South Europe. It develops an evaluation framework that integrates – together with the traditional linear performance criteria – the concepts of networking, interaction and cooperation and uses it to compare the performance of Parks in two regions in Greece (Thessaloniki and Crete) and two in Spain (Asturias and Andalusia). Our preliminary results from in depth analysis show that while there are different levels of success in terms of the traditional metrics/criteria, we observe in general low levels of interaction and cooperation developed inside the parks as well as with the broader region. The Parks do not seem to operate – at least so far – as places that facilitate intensive knowledge exchange inside and outside their area.
Boltzmann equation in de Sitter space
In a time dependent background like de Sitter space, Feynman-Dyson
perturbation theory breaks down due to infra-red divergences. We investigate an
interacting scalar field theory in Schwinger-Keldysh formalism. We derive a
Boltzmann equation from a Schwinger-Dyson equation inside the cosmological
horizon. Our solution shows that the particle production is compensated by the
reduction of the on-shell states due to unitarity. Although the degrees of
freedom inside the horizon leads to a small and diminishing screening effect of
the cosmological constant, there is a growing screening effect from those
outside the horizon.Comment: 33pages, 2figure
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