Let ${\cal H}(x,\xi)$ be a holomorphic Hamiltonian of quadratic growth on $ R^{2n}$, $b$ a holomorphic exponentially localized observable, $H$, $B$ the corresponding operators on $L^2(R^n)$ generated by Weyl quantization, and $U(t)=\exp{iHt/\hbar}$. It is proved that the $L^2$ norm of the difference between the Heisenberg observable $B_t=U(t)BU(-t)$ and its semiclassical approximation of order ${N-1}$ is majorized by $K N^{(6n+1)N}(-\hbar ln\hbar)^N$ for $t\in [0,T_N(\hbar)]$ where $T_N(\hbar)=-{2 ln\hbar\over {N-1}}$. Choosing a suitable $N(\hbar)$ the error is majorized by $C\hbar^{ln|ln\hbar|}$, $0\leq t\leq |ln\hbar|/ln|ln\hbar|$. (Here $K,C$ are constants independent of $N,\hbar$).

Publié le : 1998-05-19
Classification:  Mathematical Physics

@article{9805018,
     author = {Bambusi, Dario and Graffi, Sandro and Paul, Thierry},
     title = {Long time semiclassical approximation of quantum flows: a proof of the
  Ehrenfest time},
     journal = {arXiv},
     volume = {1998},
     number = {0},
     year = {1998},
     language = {en},
     url = {http://dml.mathdoc.fr/item/9805018}
}

Bambusi, Dario; Graffi, Sandro; Paul, Thierry. Long time semiclassical approximation of quantum flows: a proof of the
  Ehrenfest time. arXiv, Tome 1998 (1998) no. 0, . http://gdmltest.u-ga.fr/item/9805018/