Quantum dynamics on the worldvolume from classical  cohomology.

Isidro, José M.; Fernández de Córdoba, Pedro

Displaying similar documents to “Quantum dynamics on the worldvolume from classical $s u (n)$ cohomology.”

Introduction to quantum Lie algebras

Gustav Delius (1997)

Banach Center Publications

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Quantum Lie algebras are generalizations of Lie algebras whose structure constants are power series in h. They are derived from the quantized enveloping algebras $U_{h} (g)$ . The quantum Lie bracket satisfies a generalization of antisymmetry. Representations of quantum Lie algebras are defined in terms of a generalized commutator. The recent general results about quantum Lie algebras are introduced with the help of the explicit example of ${(s l_{2})}_{h}$ .

Contractions of Poisson-Lie groups, Lie bialgebras and quantum deformations

Angel Ballesteros, Mariano del Olmo (1997)

Banach Center Publications

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Contractions of Poisson-Lie groups are introduced by using Lie bialgebra contractions. As an application, contractions of SL(2,R) Poisson-Lie groups leading to (1+1) Poincaré and Heisenberg structures are analysed. It is shown how the method here introduced allows a systematic construction of the Poisson structures associated to non-coboundary Lie bialgebras. Finally, it is sketched how contractions are also implemented after quantization by using the Lie bialgebra approach. ...

Deformation on phase space.

Oscar Arratia, M.ª Angeles Martín Mínguez, María Angeles del Olmo (2002)

RACSAM

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El trabajo que presentamos constituye una revisión de varios procedimientos de cuantización basados en un espacio de fases clásico M. Estos métodos consideran a la mecánica cuántica como una "deformación" de la mecánica clásica por medio de la "transformación" del álgebra conmutativa C(M) en una nueva álgebra no conmutativa C(M). Todas estas ideas conducen de modo natural a los grupos cuánticos como deformación (o cuantización en un sentido amplio) de los grupos de Poisson-Lie, lo cual...

Quantum integrable systems

Michael Semenov-Tian-Shansky (1993-1994)

Séminaire Bourbaki

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Quantum probability, renormalization and infinite-dimensional *-Lie algebras.

Accardi, Luigi, Boukas, Andreas (2009)

SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]

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Infinite-dimensional Lie groups and algebras in mathematical physics.

Schmid, Rudolf (2010)

Advances in Mathematical Physics

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$κ$ -Minkowski spacetimes and DSR algebras: fresh look and old problems.

Borowiec, Andrzej, Pachol, Anna (2010)

SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]

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From double Lie groups to quantum groups

Piotr Stachura (2005)

Fundamenta Mathematicae

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It is shown, using geometric methods, that there is a C*-algebraic quantum group related to any double Lie group (also known as a matched pair of Lie groups or a bicrossproduct Lie group). An algebra underlying this quantum group is the algebra of a differential groupoid naturally associated with the double Lie group.

On Hopf algebra deformation approach to renormalization.

Ionescu, Lucian M., Marsalli, Michael (2008)

APPS. Applied Sciences

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Preface, Contents

(1997)

Banach Center Publications

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Quantum spacetime: a disambiguation.

Piacitelli, Gherardo (2010)

SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]

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Displaying similar documents to “Quantum dynamics on the worldvolume from classical s u ( n ) cohomology.”

Displaying similar documents to “Quantum dynamics on the worldvolume from classical $s u (n)$ cohomology.”