PINN-DQME uses time-encoded neural networks to simulate open quantum system evolution with high accuracy at high temperatures but accumulates errors in strongly non-Markovian low-temperature regimes.
Time-Dependent Density-Matrix Renormalization Group: A Systematic Method for the Study of Quantum Many-Body Out- of-Equilibrium Systems
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Simulating non-Markovian open quantum dynamics by exploiting physics-informed neural network
PINN-DQME uses time-encoded neural networks to simulate open quantum system evolution with high accuracy at high temperatures but accumulates errors in strongly non-Markovian low-temperature regimes.