囚禁离子量子比特的高保真度读出
High-fidelity readout of trapped-ion qubits.
作者信息
Myerson A H, Szwer D J, Webster S C, Allcock D T C, Curtis M J, Imreh G, Sherman J A, Stacey D N, Steane A M, Lucas D M
机构信息
Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, United Kingdom.
出版信息
Phys Rev Lett. 2008 May 23;100(20):200502. doi: 10.1103/PhysRevLett.100.200502.
We demonstrate single-shot qubit readout with a fidelity sufficient for fault-tolerant quantum computation. For an optical qubit stored in 40Ca+ we achieve 99.991(1)% average readout fidelity in 10(6) trials, using time-resolved photon counting. An adaptive measurement technique allows 99.99% fidelity to be reached in 145 micros average detection time. For 43Ca+, we propose and implement an optical pumping scheme to transfer a long-lived hyperfine qubit to the optical qubit, capable of a theoretical fidelity of 99.95% in 10 micros. We achieve 99.87(4)% transfer fidelity and 99.77(3)% net readout fidelity.
我们展示了单次量子比特读出,其保真度足以用于容错量子计算。对于存储在(^{40}Ca^+)中的光学量子比特,我们使用时间分辨光子计数在(10^6)次试验中实现了(99.991(1)%)的平均读出保真度。一种自适应测量技术允许在平均(145)微秒的检测时间内达到(99.99%)的保真度。对于(^{43}Ca^+),我们提出并实施了一种光泵浦方案,将一个长寿命超精细量子比特转移到光学量子比特,理论上在(10)微秒内保真度可达(99.95%)。我们实现了(99.87(4)%)的转移保真度和(99.77(3)%)的净读出保真度。
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