Kernel-Based Approximation of the Koopman Generator and Schrödinger Operator
Copyright policy )Kernel-Based Approximation of the Koopman Generator and Schrödinger Operator
Many dimensionality and model reduction techniques rely on estimating dominant eigenfunctions of associated dynamical operators from data. Important examples include the Koopman operator and its generator, but also the Schrödinger operator. We propose a kernel-based method for the approximation of differential operators in reproducing kernel Hilbert spaces and show how eigenfunctions can be estimated by solving auxiliary matrix eigenvalue problems. The resulting algorithms are applied to molecular dynamics and quantum chemistry examples. Furthermore, we exploit that, under certain conditions, the Schrödinger operator can be transformed into a Kolmogorov backward operator corresponding to a drift-diffusion process and vice versa. This allows us to apply methods developed for the analysis of high-dimensional stochastic differential equations to quantum mechanical systems.
- Freie Universität Berlin Germany
- Imperial College London Department of Mathematics United Kingdom
- University of Paderborn Germany
- Imperial College London United Kingdom
- IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE United Kingdom
FOS: Computer and information sciences, math.NA, Fluids & Plasmas, Science, QC1-999, Physics, Multidisciplinary, math-ph, 500 Naturwissenschaften und Mathematik::510 Mathematik::510 Mathematik, FOS: Physical sciences, Machine Learning (stat.ML), Dynamical Systems (math.DS), Astrophysics, Article, 510, math.MP, Statistics - Machine Learning, Schrodinger operator, FOS: Mathematics, Mathematics - Numerical Analysis, Mathematics - Dynamical Systems, Koopman generator, reproducing kernel Hilbert space, cs.NA, 01 Mathematical Sciences, Mathematical Physics, Schrödinger operator, Multidisciplinary, Science & Technology, 02 Physical Sciences, MODEL-REDUCTION, Physics, Q, 500, Numerical Analysis (math.NA), Mathematical Physics (math-ph), stat.ML, QB460-466, DIFFUSION MAPS, Physical Sciences, DYNAMICAL-SYSTEMS, math.DS
FOS: Computer and information sciences, math.NA, Fluids & Plasmas, Science, QC1-999, Physics, Multidisciplinary, math-ph, 500 Naturwissenschaften und Mathematik::510 Mathematik::510 Mathematik, FOS: Physical sciences, Machine Learning (stat.ML), Dynamical Systems (math.DS), Astrophysics, Article, 510, math.MP, Statistics - Machine Learning, Schrodinger operator, FOS: Mathematics, Mathematics - Numerical Analysis, Mathematics - Dynamical Systems, Koopman generator, reproducing kernel Hilbert space, cs.NA, 01 Mathematical Sciences, Mathematical Physics, Schrödinger operator, Multidisciplinary, Science & Technology, 02 Physical Sciences, MODEL-REDUCTION, Physics, Q, 500, Numerical Analysis (math.NA), Mathematical Physics (math-ph), stat.ML, QB460-466, DIFFUSION MAPS, Physical Sciences, DYNAMICAL-SYSTEMS, math.DS
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