Nearly Time-Optimal Pure State Tomography with Pauli Measurements
Abstract
We give an algorithm for pure state tomography with near-optimal copy and time complexity using only single-qubit measurements. Specifically, given O(2n/ε) copies of an unknown n-qubit pure state |, the algorithm performs only nonadaptive Pauli measurements, runs in time O(2n/ε), and outputs | with fidelity at least 1-ε with | with high probability. This is the first algorithm for pure state tomography that achieves near-optimal running time.
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