Ivan G. Avramidi scite author profile

The boundary-value problem for Laplace-type operators acting on smooth sections of a vector bundle over a compact Riemannian manifold with generalized local boundary conditions including both normal and tangential derivatives is studied. The condition of strong ellipticity of this boundary-value problem is formulated. The resolvent kernel and the heat kernel in the leading approximation are explicitly constructed. As a result, the previous work in the literature on heat-kernel asymptotics is shown to be a particular case of a more general structure. For a bosonic gauge theory on a compact Riemannian manifold with smooth boundary, the problem is studied of obtaining a gauge-field operator of Laplace type, jointly with local and gauge-invariant boundary conditions, which should lead to a strongly elliptic boundary-value problem. The scheme is extended to fermionic gauge theories by means of local and gauge-invariant projectors. After deriving a general condition for the validity of strong ellipticity for gauge theories, it is proved that for Euclidean Yang-Mills theory and Rarita-Schwinger fields all the above conditions can be satisfied. For Euclidean quantum gravity, however, this property no longer holds, i.e. the corresponding boundary-value problem is not strongly elliptic. Some non-standard local formulae for the leading asymptotics of the heat-kernel diagonal are also obtained. It is shown that, due to the absence of strong ellipticity, the heat-kernel diagonal is non-integrable near the boundary.

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Erratum to “a covariant technique for the calculation of the one-loop effective action” [Nucl. Phys. B 355 (1991) 712]

Avramidi¹

1998

Nuclear Physics B

149

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The covariant technique for the calculation of the heat kernel asymptotic expansion

Avramidi

1990

Physics Letters B

111

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Ivan G. Avramidi

Heat Kernel and Quantum Gravity

A covariant technique for the calculation of the one-loop effective action

Gauge Theories on Manifolds with Boundary

Erratum to “a covariant technique for the calculation of the one-loop effective action” [Nucl. Phys. B 355 (1991) 712]

The covariant technique for the calculation of the heat kernel asymptotic expansion

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