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Colloquium - Jean-Michel Bismut

April 20, 2017
4:15PM - 5:15PM
Cockins Hall 240

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Add to Calendar 2017-04-20 16:15:00 2017-04-20 17:15:00 Colloquium - Jean-Michel Bismut Title: The Hypoelliptic LaplacianSpeaker: Jean-Michel Bismut (Université Paris-Sud)Abstract: In this series of three lectures, I will explain the theory of the hypoelliptic Laplacian. If $X$ is a compact Riemannian manifold, and if $\mathcal{X}$ is the total space of its tangent bundle, there is a canonical interpolation between the classical Laplacian of $X$ and the generator of the geodesic flow by a family of hypoelliptic operators $L^X_b\rvert_{b>0}$ acting on $\mathcal{X}$. This interpolation extends to all the classical geometric Laplacians. There is a natural dynamical system counterpart, which interpolates between Brownian motion and the geodesic flow.The hypoelliptic deformation preserves certain spectral invariants, such as the Ray-Singer torsion, the holomorphic torsion and the eta invariants. In the case of locally symmetric spaces, the spectrum of the original Laplacian remains rigidly embedded in the spectrum of the deformation. This property has been used in the context of Selberg’s trace formula. Another application of the hypoelliptic Laplacian is in complex Hermitian geometry, where the extra degrees of freedom provided by the hypoelliptic deformation can be used to solve a question which is unsolvable in the elliptic world.In the first lecture, ‘Hypoelliptic Laplacian and analytic torsion’, I will give the structure of the hypoelliptic Laplacian, which is essentially a combination of the fibrewise harmonic oscillator and of the geodesic flow. I will also describe its construction in de Rham theory, and explain some properties of the hypoelliptic torsion.In the second lecture ‘Hypoelliptic Laplacian and the trace formula’, I will concentrate on the case of symmetric spaces, and on applications to the evalu-ation of orbital integrals and to Selberg trace formula.In the third (colloquium) lecture ‘Hypoelliptic Laplacian, Brownian motion and the geodesic flow’, I will explain the basic elements of the theory and em-phasize its connections with dynamical systems. The Hypoelliptic Laplacian Abstract [pdf] Cockins Hall 240 Department of Mathematics math@osu.edu America/New_York public

Title: The Hypoelliptic Laplacian

SpeakerJean-Michel Bismut (Université Paris-Sud)

Abstract: In this series of three lectures, I will explain the theory of the hypoelliptic Laplacian. If $X$ is a compact Riemannian manifold, and if $\mathcal{X}$ is the total space of its tangent bundle, there is a canonical interpolation between the classical Laplacian of $X$ and the generator of the geodesic flow by a family of hypoelliptic operators $L^X_b\rvert_{b>0}$ acting on $\mathcal{X}$. This interpolation extends to all the classical geometric Laplacians. There is a natural dynamical system counterpart, which interpolates between Brownian motion and the geodesic flow.

The hypoelliptic deformation preserves certain spectral invariants, such as the Ray-Singer torsion, the holomorphic torsion and the eta invariants. In the case of locally symmetric spaces, the spectrum of the original Laplacian remains rigidly embedded in the spectrum of the deformation. This property has been used in the context of Selberg’s trace formula. Another application of the hypoelliptic Laplacian is in complex Hermitian geometry, where the extra degrees of freedom provided by the hypoelliptic deformation can be used to solve a question which is unsolvable in the elliptic world.

In the first lecture, ‘Hypoelliptic Laplacian and analytic torsion’, I will give the structure of the hypoelliptic Laplacian, which is essentially a combination of the fibrewise harmonic oscillator and of the geodesic flow. I will also describe its construction in de Rham theory, and explain some properties of the hypoelliptic torsion.

In the second lecture ‘Hypoelliptic Laplacian and the trace formula’, I will concentrate on the case of symmetric spaces, and on applications to the evalu-ation of orbital integrals and to Selberg trace formula.

In the third (colloquium) lecture ‘Hypoelliptic Laplacian, Brownian motion and the geodesic flow’, I will explain the basic elements of the theory and em-phasize its connections with dynamical systems.

 

The Hypoelliptic Laplacian Abstract [pdf]

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