Conceptos Básicos
This research paper presents a novel method for efficiently simulating and analyzing the dynamics of open quantum systems, particularly those exhibiting non-Markovian behavior, by combining tensor network techniques with thermofield doubling and the Choi-Jamiolkowski isomorphism.
Citas
"The most general description of quantum evolution up to a time τ is a completely positive tracing preserving map known as a dynamical map ˆΛ(τ)."
"By combining several techniques within a tensor network framework we directly and accurately extract ˆΛ(τ) for a small number of interacting fermionic modes coupled to infinite non-interacting Fermi baths."
"Our numerical examples of interacting spinless Fermi chains and the single impurity Anderson model demonstrate regimes where τre ≫τm, where our approach can offer a significant speedup in determining the stationary state compared to directly simulating the long-time limit."