Systematic Coarse Graining of Environments for the Nonperturbative Simulation of Open Quantum Systems
Nicola Lorenzoni, Namgee Cho, James Lim, Dario Tamascelli, Susana F. Huelga, Martin B. Plenio
Abstract
Conducting precise electronic-vibrational dynamics simulations of molecular systems poses significant challenges when dealing with realistic environments composed of numerous vibrational modes. Here, we introduce a technique for the construction of effective phonon spectral densities that capture accurately open-system dynamics over a finite time interval of interest. When combined with existing nonperturbative simulation tools, our approach can reduce significantly the computational costs associated with many-body open-system dynamics.
Topics & Concepts
GranularityQuantum simulatorComputer scienceStatistical physicsMolecular dynamicsOpen system (computing)QuantumPhononSystem dynamicsPhysicsOpen quantum systemQuantum mechanicsArtificial intelligenceOperating systemProgramming languageSoftwareSpectroscopy and Quantum Chemical StudiesQuantum, superfluid, helium dynamicsAdvanced Chemical Physics Studies