Gauge Theories on Manifolds with Boundary

Avramidi, Ivan G.; Esposito, Giampiero

doi:10.1007/s002200050539

Cited by 66 publications

(170 citation statements)

References 24 publications

(63 reference statements)

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“…At the full supergravity level, boundary contributions were considered from several authors, using different approaches, and in particular in [24][25][26][27][28][29][30][31][32][33][34]. While in [30][31][32][33] boundary conditions on the fields are imposed, in [24][25][26][27][28][29] it is pointed out that the supergravity action should be invariant under local supersymmetry without imposing Dirichlet boundary conditions on the fields, in contrast to the Gibbons-Hawking prescription [3].…”

Section: Jhep08(2014)012mentioning

confidence: 99%

“…While in [30][31][32][33] boundary conditions on the fields are imposed, in [24][25][26][27][28][29] it is pointed out that the supergravity action should be invariant under local supersymmetry without imposing Dirichlet boundary conditions on the fields, in contrast to the Gibbons-Hawking prescription [3]. The explicit construction of an AdS supergravity theory with a boundary and with no boundary conditions on the fields was achieved in reference [24][25][26][27][28][29] using superconformal tensor calculus, in the particular case of N = 1, D = 3 (off-shell) supergravity.…”

Section: Jhep08(2014)012mentioning

confidence: 99%

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N=1 and N=2 pure supergravities on a manifold with boundary

Andrianopoli

D’Auria

2014

J. High Energ. Phys.

105

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Working in the geometric approach, we construct the lagrangians of N = 1 and N = 2 pure supergravity in four dimensions with negative cosmological constant, in the presence of a non trivial boundary of space-time. We find that the supersymmetry invariance of the action requires the addition of topological terms which generalize at the supersymmetric level the Gauss-Bonnet term. Supersymmetry invariance is achieved without requiring Dirichlet boundary conditions on the fields at the boundary, rather we find that the boundary values of the fieldstrengths are dynamically fixed to constant values in terms of the cosmological constant Λ. From a group-theoretical point of view this means in particular the vanishing of the OSp(N |4)-supercurvatures at the boundary.

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Section: Jhep08(2014)012mentioning

confidence: 99%

Section: Jhep08(2014)012mentioning

confidence: 99%

N=1 and N=2 pure supergravities on a manifold with boundary

Andrianopoli

D’Auria

2014

J. High Energ. Phys.

105

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“…But both of them vanish if and only if the metric solves the vacuum Einstein equations in four dimensions. In Euclidean quantum gravity, if one uses the de Donder gauge-fixing functional, one finds a boundary operator formally analogous to the one in equation (6.1) but imcompatible with the strong ellipticity of the boundary value problem [5]. Only recently, in [45,46], has one found a viable way out in the particular case of the Euclidean 4-ball, and more work is in order on this key issue, which has also implications for singularity avoidance in quantum cosmology, as we mentioned in Section 3.…”

Section: Noncommutative Geometry and The Standard Model With Gravitymentioning

confidence: 99%

Quantum Gravity: Unification of Principles and Interactions, and Promises of Spectral Geometry

Booss-Bavnbek¹

2007

SIGMA

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Abstract. Quantum gravity was born as that branch of modern theoretical physics that tries to unify its guiding principles, i.e., quantum mechanics and general relativity. Nowadays it is providing new insight into the unification of all fundamental interactions, while giving rise to new developments in modern mathematics. It is however unclear whether it will ever become a falsifiable physical theory, since it deals with Planck-scale physics. Reviewing a wide range of spectral geometry from index theory to spectral triples, we hope to dismiss the general opinion that the mere mathematical complexity of the unification programme will obstruct that programme.

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“…(6) and (7), supplemented by the following asymptotic conditions on the D matrices (the ξ α functions no longer vanish at spatial infinity):…”

Section: Asymptotic Conditions For Pure Yang-mills Theoriesmentioning

confidence: 99%

“…(6). In the very definition of gauge fixing at perturbative level, one requires that each orbit should intersect the gaugefixing surface only once, so as to ensure uniqueness of the potentials satisfying dynamical equations for a given choice of gauge fixing.…”

Section: Gribov Phenomenonmentioning

confidence: 99%

Gribov Problem for Gauge Theories: A Pedagogical Introduction

Esposito

Pelliccia

Zaccaria

2004

Int. J. Geom. Methods Mod. Phys.

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The functional-integral quantization of non-Abelian gauge theories is affected by the Gribov Their occurrence (lack of global cross-sections from the point of view of differential geometry) is called Gribov ambiguity, and is here presented within the framework of a global approach to quantum field theory. We first give a simple (standard) example for the SU (2) group and spherically symmetric potentials, then we discuss this phenomenon in general relativity, and recent developments, including lattice calculations.

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Gauge Theories on Manifolds with Boundary

Cited by 66 publications

References 24 publications

N=1 and N=2 pure supergravities on a manifold with boundary

N=1 and N=2 pure supergravities on a manifold with boundary

Quantum Gravity: Unification of Principles and Interactions, and Promises of Spectral Geometry

Gribov Problem for Gauge Theories: A Pedagogical Introduction

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