Physics – Mathematical Physics
Scientific paper
2008-07-31
J. Funct. Anal. 256 (2009) 2894-2916.
Physics
Mathematical Physics
21 pages, typos have been corrected from previous version and a reference was updated
Scientific paper
In this article, we study a second-order expansion for the effect induced on a large quantum particle which undergoes a single scattering with a low-mass particle via a repulsive point interaction. We give an approximation with third-order error in $\lambda$ to the map $G\to \Tr_{2}[(I\otimes \rho)S_{\lambda}^{*}(G\otimes I)S_{\lambda}]$, where $G\in \Bi(L^{2}(\R^{n}))$ is a heavy-particle observable, $\rho\in \Bi_{1}(\R^{n})$ is the density matrix corresponding to the state of the light particle, $\lambda=\frac{m}{M}$ is the mass ratio of the light particle to the heavy particle, $S_{\lambda}\in \Bi(L^{2}(\R^{n})\otimes L^{2}(\R^{n}))$ is the scattering matrix between the two particles due to a repulsive point interaction, and the trace is over the light-particle Hilbert space. The third-order error is bounded in operator norm for dimensions one and three using a weighted operator norm on $G$.
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