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Neural networks (NNs) accelerate simulations of quantum dissipative dynamics. Ensuring that these simulations adhere to fundamental physical laws is crucial, but has been largely ignored in the state-of-the-art NN approaches. We show that this may lead to implausible results measured by violation of the trace conservation. To recover the correct physical behavior, we develop physics-informed NNs that mitigate the violations to a good extend. Beyond that, we introduce an approach enforcing the perfect trace conservation by design.
Ullah et al. (Mon,) studied this question.