Coherence dynamics in low-energy nuclear fusion
Iain Lee, A. Díaz-Torres
Abstract
Low-energy nuclear fusion reactions have been described using a dynamical coupled-channels density matrix method, based on the theory of open quantum systems. For the first time, this has been combined with an energy projection method, permitting the calculation of energy resolved fusion probabilities. The results are benchmarked against calculations using stationary Schrödinger dynamics and show excellent agreement. Calculations of entropy, energy dissipation and coherence were conducted, demonstrating the capability of this method. It is evident that the presence of quantum decoherence does not affect fusion probability. This framework provides a basis for quantum thermodynamic studies using thermal environments.
Topics & Concepts
Quantum decoherenceCoherence (philosophical gambling strategy)Density matrixQuantumStatistical physicsPhysicsDissipationFusionQuantum entanglementEntropy (arrow of time)Quantum mechanicsLinguisticsPhilosophySpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesQuantum Mechanics and Applications