Posted
Hjalmar Rall, Michael M. Wolf (Jan 20 2025).
Abstract: We investigate the possibility of performing full quantum tomography based on the homogeneous time evolution of a single expectation value. For example, we find that every non-trivial binary measurement evolved by any quantum channel, except for a null set, in principle enables full quantum state tomography. While this remains true when restricted to Lindblad semigroups, we show that beyond the qubit case unitary evolution is never sufficient - so the presence of noise is essential. We prove an analog of Takens' embedding theorem for quantum channels, which extends our findings to cases where prior information is available, and we provide estimation bounds for finite statistics.
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