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Regensburg 2016 – wissenschaftliches Programm

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DY: Fachverband Dynamik und Statistische Physik

DY 21: Complex Fluids and Colloids IV (joint session DY/BP/CPP)

DY 21.2: Vortrag

Dienstag, 8. März 2016, 14:15–14:30, H46

From classical to quantum and back: A Hamiltonian scheme for adaptive multi-resolution classical/path integral simulations — •Karsten Kreis1,2, Mark E. Tuckerman3,4,5, Davide Donadio1,6, Kurt Kremer1, and Raffaello Potestio11Max Planck Institute for Polymer Research, Ackermannweg 10, 55128 Mainz, Germany — 2Graduate School Materials Science in Mainz, Staudinger Weg 9, 55128 Mainz, Germany — 3Department of Chemistry, New York University (NYU), New York, NY 10003, USA — 4Courant Institute of Mathematical Sciences, NYU, New York, NY 10012, USA — 5NYU-East China Normal University Center for Computational Chemistry at NYU Shanghai, Shanghai 200062, China — 6Department of Chemistry, University of California Davis, One Shields Ave., Davis, CA 95616, USA

Quantum delocalization of atomic nuclei affects the physical properties of many hydrogen-rich liquids and biological systems. To accurately model these effects, Feynman's path integral formulation of quantum statistical mechanics is typically employed, which implies a substantial increase in computational overhead. By restricting the quantum description to a small spatial region, this cost can be significantly reduced. Herein, we derive and validate a rigorous, Hamiltonian-based scheme that allows molecules to change from quantum to classical and vice versa on the fly as they diffuse through the system, both reducing overhead and making quantum grand-canonical simulations possible. Our adaptive resolution approach paves the way to efficient quantum simulations of biomolecules, membranes, and interfaces.

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