SPEAKER: Dr. Aleksander Kubica
AFFILIATION: Perimeter Institute for Theoretical Physics, Canada
TITLE: Using Quantum Metrological Bounds in Quantum Error Correction: A Simple Proof of the Approximate Eastin-Knill Theorem
SESSION CHAIR: Dr. Ben Brown, University of Sydney, Australia
ABSTRACT: We present a simple proof of the approximate Eastin-Knill theorem, which connects the quality of a quantum error-correcting code (QECC) with its ability to achieve a universal set of transversal logical gates. Our derivation employs powerful bounds on the quantum Fisher information in generic quantum metrological protocols to characterize the QECC performance measured in terms of the worst-case entanglement fidelity. The theorem is applicable to a large class of decoherence models, including independent erasure and depolarizing noise. Our approach is unorthodox, as instead of following the established path of utilizing QECCs to mitigate noise in quantum metrological protocols, we apply methods of quantum metrology to explore the limitations of QECCs.
PAPER: arXiv 2004.11893. https://arxiv.org/pdf/2004.11893.pdf
