Finite W-algebras of classical type

Brown, Jonathan, 1975-

06 1900

ix, 114 p. A print copy of this thesis is available through the UO Libraries. Search the library catalog for the location and call number. / In this work we prove that the finite W -algebras associated to nilpotent elements in the symplectic or orthogonal Lie algebras whose Jordan blocks are all the same size are quotients of twisted Yangians. We use this to classify the finite dimensional irreducible representations of these finite W -algebras. / Committee in charge: Jonathan Brundan, Co-Chairperson, Mathematics; Victor Ostrik, Co-Chairperson, Mathematics; Arkady Berenstein, Member, Mathematics; Hal Sadofsky, Member, Mathematics; Christopher Wilson, Outside Member, Computer & Information Science

Finite W-algebras

Nilpotent

Symplectic

Quantum algebra

Mathematics

W-algebras

On string and W-strings

Khatun, Zohora

January 1995

No description available.

530.1

Modules maps and Invariant subsets of Banach modules of locally compact groups

Hamouda, Hawa

13 March 2013

For a locally compact group G, the papers [13] and [7] have many results about G-invariant subsets of G-modules, and the relationship between G-module maps, L1(G)-module maps and M(G)-module maps. In both papers, the results were given for one specific module action. In this thesis we extended many of their results to arbitrary Banach G-modules. In addition, we give detailed proofs of most of the results found in the first section of the paper [21].

module maps

invariant subsets

locally compact groups modules maps

amenable actions

non-Banach algebra

Reiter's condition

homomorphisms

predual

W*-algebras

Banach modules

Modules maps and Invariant subsets of Banach modules of locally compact groups

Hamouda, Hawa

13 March 2013

For a locally compact group G, the papers [13] and [7] have many results about G-invariant subsets of G-modules, and the relationship between G-module maps, L1(G)-module maps and M(G)-module maps. In both papers, the results were given for one specific module action. In this thesis we extended many of their results to arbitrary Banach G-modules. In addition, we give detailed proofs of most of the results found in the first section of the paper [21].

modules maps (homomorphisms)

invariant subsets of Banach modules

locally compact groups modules maps

non-Banach algebra

Reiter's condition

Aspects of higher-spin theory with fermions / Aspects des théories de spin élevé avec fermions

Lucena Gomez, Gustavo

18 April 2014

The present thesis is divided into three parts. In Part I we address a problem within Higher-Spin Gauge Theory in dimension three: namely, that of computing the asymptotic symmetry algebra of supersymmetric models, describing an infinite spectrum of integer and half-integer higher-spin fields. In Part II we investigate higher-spin theories in dimension four or greater, where we classify the consistent cross interactions between free gauge fermions of arbitrary spin and a photon or a graviton. A third part supplements the bulk of the manuscript with technical appendices. <p><p>Part I is concerned with the Higher-Spin Theory extending the anti-de Sitter orthosymplectic Supergravity in three dimensions. After recalling the construction of the latter we exhibit the structure of the former, and then explain how to generalize the boundary conditions for Supergravity to the higher-spin case. Following the usual procedure, we compute the form of the residual gauge parameter and then identify the Poisson-bracket algebra governing the asymptotic dynamics. It is found to be a nonlinear, supersymmetric algebra of the W-infinity type with same central charge as pure Gravity in the Virasoro sector, which is a subalgebra thereof. The simply supersymmetric case is treated explicitly whereas the details of the extended cases are relegated to the appendices. <p><p>Part II deals with the interaction problem for gauge fermions coupled to Electromagnetism and Gravity in flat spacetime of arbitrary dimension. First we recall the so-called BRST-Antifield techniques, which reformulate the deformation problem as a cohomological one, recasting the familiar Noether procedure for finding out interactions in a mathematically systematic way. We then use these methods to classify and obtain expressions for the gauge-invariant cubic couplings between a symmetric tensor-spinor and a spin-1 and spin-2 gauge field. With no input from previous works, we find the complete list of interaction terms with minimal assumptions and in particular shed light on the quartic obstructions to full consistency. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Physique

Sciences exactes et naturelles

Asymptotic symmetry (Physics)

Supergravity

Fermions

Gauge invariance

Symétrie asymptotique (Physique)

Supergravité

Fermions

Invariance de jauge

W algebras

gauge invariance

asymptotic symmetries

higher spin

dimension three

brst

couplings