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State selective detection of hyperfine qubits

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arxiv 1406.5821 v1 pith:SPPU4TM4 submitted 2014-06-23 quant-ph

State selective detection of hyperfine qubits

classification quant-ph
keywords detectionstatemethodqubitsmethodshyperfinepossiblequbit
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In order to faithfully detect the state of an individual two-state quantum system (qubit) realized using, for example, a trapped ion or atom, state selective scattering of resonance fluorescence is well established. The simplest way to read out this measurement and assign a state is the threshold method. The detection error can be decreased by using more advanced detection methods like the time-resolved method or the $\pi$-pulse detection method. These methods were introduced to qubits with a single possible state change during the measurement process. However, there exist many qubits like the hyperfine qubit of $^{171}Yb^+$ where several state change are possible. To decrease the detection error for such qubits, we develope generalizations of the time-resolved method and the $\pi$-pulse detection method for such qubits. We show the advantages of these generalized detection methods in numerical simulations and experiments using the hyperfine qubit of $^{171}Yb^+$. The generalized detection methods developed here can be implemented in an efficient way such that experimental real time state discrimination with improved fidelity is possible.

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