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Realization of a binary-outcome projection measurement of a three-level superconducting quantum system

Binary-outcome measurements allow to determine whether a multi-level quantum system is in a certain state while preserving quantum coherence between all orthogonal states. In this paper, we explore different regimes of the dispersive readout of a three-level superconducting quantum system coupled to a microwave cavity in order to implement binary-outcome measurements. By designing identical cavity frequency shifts for the first and second excited states of the system, we realize strong projective binary-outcome measurements onto its ground state with a fidelity of $94.3\%$. Complemented with standard microwave control and low-noise parametric amplification, this scheme enables the quantum non-demolition detection of leakage errors and can be used to create sets of compatible measurements to reveal the contextual nature of superconducting circuits.

preprint2016arXivOpen access
Markus JergerPascal MachaAndrés Rosario HamannYarema ReshitnykKristinn JuliussonArkady Fedorov
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Markus JergerPascal MachaAndrés Rosario HamannYarema ReshitnykKristinn JuliussonArkady Fedorov

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