Leseprobe
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Hypoelliptic Laplacian and Orbital Integrals (AM-177)
Jean-Michel Bismut
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Naturwissenschaften, Medizin, Informatik, Technik / Mathematik
Beschreibung
This book uses the hypoelliptic Laplacian to evaluate semisimple orbital integrals in a formalism that unifies index theory and the trace formula. The hypoelliptic Laplacian is a family of operators that is supposed to interpolate between the ordinary Laplacian and the geodesic flow. It is essentially the weighted sum of a harmonic oscillator along the fiber of the tangent bundle, and of the generator of the geodesic flow. In this book, semisimple orbital integrals associated with the heat kernel of the Casimir operator are shown to be invariant under a suitable hypoelliptic deformation, which is constructed using the Dirac operator of Kostant. Their explicit evaluation is obtained by localization on geodesics in the symmetric space, in a formula closely related to the Atiyah-Bott fixed point formulas. Orbital integrals associated with the wave kernel are also computed.
Estimates on the hypoelliptic heat kernel play a key role in the proofs, and are obtained by combining analytic, geometric, and probabilistic techniques. Analytic techniques emphasize the wavelike aspects of the hypoelliptic heat kernel, while geometrical considerations are needed to obtain proper control of the hypoelliptic heat kernel, especially in the localization process near the geodesics. Probabilistic techniques are especially relevant, because underlying the hypoelliptic deformation is a deformation of dynamical systems on the symmetric space, which interpolates between Brownian motion and the geodesic flow. The Malliavin calculus is used at critical stages of the proof.
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Equation, Explicit formulae (L-function), Malliavin calculus, Orthonormal basis, Volume element, Computation, Feynman–Kac formula, Atiyah–Singer index theorem, Levi-Civita connection, Geodesic, Fiber bundle, Smoothness, Stochastic differential equation, Vector bundle, Polynomial, Spinor, Square root, Hypoelliptic operator, Lie algebra, Vector space, Division by zero, Dirac operator, Estimation, Integration by parts, Toponogov's theorem, Parameter, Existential quantification, Euclidean space, Derivative, Hilbert space, Pseudo-differential operator, Exponential function, Summation, Covariant derivative, Probability, Automorphism, Fourier transform, Support (mathematics), Endomorphism, Theorem, Determinant, Vector field, De Rham cohomology, Tangent bundle, Square-integrable function, Differential operator, Sobolev space, Symmetric bilinear form, Clifford algebra, Parallel transport, Explicit formula, Symmetric space, Coordinate system, Connection form, Heat kernel, Riemannian manifold, Dimension (vector space), Self-adjoint, Supertrace, Gaussian integral, Scientific notation, Asymptote, Commutator, Coefficient, Dot product, Brownian motion, Differential equation, Eigenvalues and eigenvectors, Bilinear form, Submanifold