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Optimal lower bounds for quantum state tomography

Published 9 Oct 2025 in quant-ph, cs.CC, and cs.DS | (2510.07699v1)

Abstract: We show that $n = \Omega(rd/\varepsilon2)$ copies are necessary to learn a rank $r$ mixed state $\rho \in \mathbb{C}{d \times d}$ up to error $\varepsilon$ in trace distance. This matches the upper bound of $n = O(rd/\varepsilon2)$ from prior work, and therefore settles the sample complexity of mixed state tomography. We prove this lower bound by studying a special case of full state tomography that we refer to as projector tomography, in which $\rho$ is promised to be of the form $\rho = P/r$, where $P \in \mathbb{C}{d \times d}$ is a rank $r$ projector. A key technical ingredient in our proof, which may be of independent interest, is a reduction which converts any algorithm for projector tomography which learns to error $\varepsilon$ in trace distance to an algorithm which learns to error $O(\varepsilon)$ in the more stringent Bures distance.

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