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2021 PreprintHelp me understand this report
Beating the thermal limit of qubit initialization with a Bayesian Maxwell's demon
Abstract: Fault-tolerant quantum computing requires initializing the quantum register in a well-defined fiducial state. In solid-state systems, this is typically achieved through thermalization to a cold reservoir, such that the initialization fidelity is fundamentally limited by temperature. Here we present a method of preparing a fiducial quantum state that beats the thermal limit. It is based on real-time monitoring of the qubit through a negative-result measurement -the equivalent of a 'Maxwell's demon' that only tr…
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