Learning a quantum channel from its steady-state

We present a scalable method for learning local non-unital quantum channels using only local expectation values measured on their steady state. Our method can be seen as the channel equivalent of the algorithms for learning local Hamiltonians from their ground states. Such channels can be efficiently implemented on the quantum computer using mid-circuit measurements or RESET gates. Using engineered dissipative dynamics, our method provides a simple way to check how well a given noise model describes the actual noisy dynamics within the hardware, when all qubits are actively used for a non-negligible amount of time. Moreover, given a parameterized noise model, our method can be applied to learn the underlying noise parameters for the entire system. We demonstrate our method numerically and experimentally on an IBMQ machine, and show that a full noise model can be verified and learned from Pauli measurements on a single state.