Litcius/Paper detail

Disorder enhanced vibrational entanglement and dynamics in polaritonic chemistry

David Wellnitz, Guido Pupillo, Johannes Schachenmayer

2022Communications Physics48 citationsDOIOpen Access PDF

Abstract

Abstract Collectively coupling molecular ensembles to a cavity has been demonstrated to modify chemical reactions akin to catalysis. Theoretically understanding this experimental finding remains an important challenge. In particular the role of quantum effects in such setups is an open question of fundamental and practical interest. Theoretical descriptions often neglect quantum entanglement between nuclear and electro-photonic degrees of freedom, e.g., by computing Ehrenfest dynamics. Here we discover that disorder can strongly enhance the build-up of this entanglement on short timescales after incoherent photo-excitation. We find that this can have direct consequences for nuclear coordinate dynamics. We analyze this phenomenon in a disordered Holstein-Tavis-Cummings model, a minimal toy model that includes all fundamental degrees of freedom. Using a numerical technique based on matrix product states we simulate the exact quantum dynamics of more than 100 molecules. Our results highlight the importance of beyond Born-Oppenheimer theories in polaritonic chemistry.

Topics & Concepts

Quantum entanglementDegrees of freedom (physics and chemistry)QuantumPhysicsQuantum mechanicsDynamics (music)Statistical physicsAcousticsStrong Light-Matter InteractionsQuantum and electron transport phenomenaQuantum Information and Cryptography