133,548 research outputs found
Stock assessment in brown shrimp (Crangon crangon) part 1: Investigation of possible methods
Het Ministerie van LNV, de gezamenlijke Producentenorganisaties voor de garnalenvisserij in Nederland, en de natuurorganisaties Stichting de Noordzee en de Waddenvereniging hebben het belang onderschreven van een gezamenlijk traject naar een verduurzaming van de garnalenvisserij en het verkrijgen van een MSC (Marine Stewardship Councel) certificering voor de garnalenvisserij. Om voor een MSC label in aanmerking te komen moet er aangetoond worden dat de gewone garnaal, Crangon crangon, niet overbevist wordt. Momenteel wordt de garnalen visserij niet beheerd en is er geen officiële bestandschatting. Wel worden er door de ICES crangon werkgroep (WGCRAN, ICES working Group on crangon fisheries and life history) op een beschrijvende manier de fluctuaties in dichtheden van de gewone garnaal bijgehouden. Het is echter wenselijk om tot een meer kwantitatieve bestandschatting te komen
Convolutions for orthogonal polynomials from Lie and quantum algebra representations
The interpretation of the Meixner-Pollaczek, Meixner and Laguerre polynomials
as overlap coefficients in the positive discrete series representations of the
Lie algebra su(1,1) and the Clebsch-Gordan decomposition leads to
generalisations of the convolution identities for these polynomials. Using the
Racah coefficients convolution identities for continuous Hahn, Hahn and Jacobi
polynomials are obtained. From the quantised universal enveloping algebra for
su(1,1) convolution identities for the Al-Salam and Chihara polynomials and the
Askey-Wilson polynomials are derived by using the Clebsch-Gordan and Racah
coefficients. For the quantised universal enveloping algebra for su(2) q-Racah
polynomials are interpreted as Clebsch-Gordan coefficients, and the
linearisation coefficients for a two-parameter family of Askey-Wilson
polynomials are derived.Comment: AMS-TeX, 31 page
Fock representations of the Lie superalgebra q(n+1)
For the Lie superalgebra a description is given in terms of creation
and annihilation operators, in such a way that the defining relations of
are determined by quadratic and triple supercommutation relations of
these operators. Fock space representations of are defined by
means of these creation and annihilation operators. These new representations
are introduced as quotient modules of some induced module of . The
representations are not graded, but they possess a number of properties
that are of importance for physical applications. For a positive integer,
these representations are finite-dimensional, with a unique highest
weight (of multiplicity 1). The Hermitian form that is consistent with the
natural adjoint operation on is shown to be positive definite on
. For these representations are ``dispin''. For the general case of
, many structural properties of are derived.Comment: 24 pages, LaTeX file, small corrections done; to appear in J. Phys.
A: Math. Ge
What research we no longer need in neurodegenerative disease at the end of life : The case of research in dementia
A complete silence. That was what we got back from the European experts who had been energetically discussing research priorities in palliative care in neurodegenerative disease (ND) until a short while ago.1 The chair, an entertaining professor with good manners, must have felt the unease and quickly refocused the group to their task. But, wasn’t this the best question of all day? What research we no longer need? As scientists able to consider different perspectives, shouldn’t we have some idea of what research is, by contrast, no longer necessary? Palliative care research and research with people who have ND and are at the end of their life is, by definition, difficult. Making choices is a sensitive issue, but funds are limited. Therefore, we take a counterpoint to the research agenda recently reported by European Union (EU) Joint Programme – Neurodegenerative Disease Research (JPND),1 and consider whether there are studies we no longer need or are low priority, taking the example of dementiaPeer reviewedFinal Accepted Versio
Influence of strongly coupled, hidden scalars on Higgs signals
To investigate the possible effects of a light hidden sector on Higgs boson
detection, we discuss a model of scalar singlets coupled to the Standard Model.
The model effectively makes the Higgs width a free parameter due to additional
invisible decay modes. This width can become arbitrarily large. Theoretical and
experimental bounds on model parameters are presented. It is shown, how
Standard Model predictions change and that in the case of large coupling, Higgs
signals will be diluted. We study, to which extent such a strongly coupled,
hidden sector can be excluded by present and future Higgs search experiments.Comment: 22 pages, Latex, 12 figures embedded with epsf.sty and epsfig.sty, to
appear in Z. Phys.
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