The canonical quantization of any hyperbolic symplectomorphism $A$ of the 2-torus (in particular, of the Arnold cat map) yields a periodic unitary operator on a $N$-dimensional Hilbert space, $N=\frac1{h}$. We prove that this quantum system becomes ergodic and mixing at the classical limit ($N\to\infty $, $N$ prime) which can be interchanged with the time-average limit. The recovery of the stochastic behaviour out of a periodic one is based on the same mechanism under which the uniform distribution of the classical periodic orbits reproduces the Lebesgue measure: the Wigner functions of the eigenstates, supported on the classical periodic orbits, are indeed proved to become uniformly spread in phase space.
Classical Limit of the Quantized Hyperbolic Toral Automorphism
ISOLA, Stefano
1995-01-01
Abstract
The canonical quantization of any hyperbolic symplectomorphism $A$ of the 2-torus (in particular, of the Arnold cat map) yields a periodic unitary operator on a $N$-dimensional Hilbert space, $N=\frac1{h}$. We prove that this quantum system becomes ergodic and mixing at the classical limit ($N\to\infty $, $N$ prime) which can be interchanged with the time-average limit. The recovery of the stochastic behaviour out of a periodic one is based on the same mechanism under which the uniform distribution of the classical periodic orbits reproduces the Lebesgue measure: the Wigner functions of the eigenstates, supported on the classical periodic orbits, are indeed proved to become uniformly spread in phase space.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
