On the relation between classical and quantum dynamics --- a mathematician's perspective

TYPE	Colloquium
Speaker:	Professor Elon Lindenstrauss
Affiliation:	Einstein Institute of Mathematics- The Hebrew Univesity
Date:	19.01.2012
Time:	16:30
Location:	Lidow Rosen Auditorium (323)

Abstract:

Classical mechanics and quantum mechanics give very different descriptions of the laws of

evolution of a physical system which at high energies should be quite similar. I will discuss

one aspect of this in a very simple system: one spineless particle constraint to lie on a closed

and bounded manifold with no external force. In this case the quantum unique ergodicity conjecture

states that if the classicaldynamics is uniformly hyperbolic ("chaotic" in a strong sense) the steady

states of the Schroedinger evolution (which are just the eigenfunctions of the Laplace-Beltrami operator)

become equidistributed in the high energy limit. I will present some of the rigorous results in this direction, and

focus on the case of arithmetic manifolds which have a subtle but very rich symmetry whichcan be used to

aid the analysis.

Classical mechanics and quantum mechanics give very different

descriptions of the laws of evolution of a physical system which at

high energies should be quite similar. I will discuss one aspect of

this in a very simple system: one spineless particle constraint to lie

on a closed and bounded manifold with no external force. In this case

the quantum unique ergodicity conjecture states that if the classical

dynamics is uniformly hyperbolic ("chaotic" in a strong sense) the

steady states of the Schroedinger evolution (which are just the

eigenfunctions of the Laplace-Beltrami operator) become

equidistributed in the high energy limit. I will present some of the

rigorous results in this direction, and focus on the case of

arithmetic manifolds which have a subtle but very rich symmetry which

can be used to aid the analysis.