Mathematical Physics
[Submitted on 8 Aug 2022]
Title:The Laplace operator, measure concentration, Gauss functions, and quantum mechanics
View PDFAbstract:We represent in this note the solutions of the electronic Schrödinger equation as traces of higher-dimensional functions. This allows to decouple the electron-electron interaction potential but comes at the price of a degenerate elliptic operator replacing the Laplace operator on the higher-dimensional space. The surprising observation is that this operator can without much loss again be substituted by the Laplace operator, the more successful the larger the system under consideration is. This is due to a concentration of measure effect that has much to do with the random projection theorem known from probability theory. The text is in parts based on the publications [Numer. Math. 146, 219--238 (2020)] and [SIAM J. Matrix Anal. Appl., 43, 464--478 (2022)] of the author and adapts the findings there to the needs of quantum mechanics. Our observations could for example find use in iterative methods that map sums of products of orbitals and geminals onto functions of the same type.
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