量子位元
系统误差
计算机科学
错误检测和纠正
补偿(心理学)
观测误差
光学
量子
极化(电化学)
电子工程
物理
算法
数学
工程类
量子力学
统计
心理学
物理化学
化学
精神分析
作者
Zhibo Hou,Huangjun Zhu,Guo‐Yong Xiang,Chuan‐Feng Li,Guang‐Can Guo
出处
期刊:Journal of The Optical Society of America B-optical Physics
[Optica Publishing Group]
日期:2016-05-24
卷期号:33 (6): 1256-1256
被引量:14
标识
DOI:10.1364/josab.33.001256
摘要
Systematic errors are inevitable in most measurements performed in real life because of imperfect measurement devices. Reducing systematic errors is crucial to ensuring the accuracy and reliability of measurement results. To this end, delicate error-compensation design is often necessary in addition to device calibration to reduce the dependence of the systematic error on the imperfection of the devices. The art of error-compensation design is well appreciated in nuclear magnetic resonance system by using composite pulses. In contrast, there are few works on reducing systematic errors in quantum optical systems. Here we propose an error-compensation design to reduce the systematic error in projective measurements on a polarization qubit. It can reduce the systematic error to the second order of the phase errors of both the half-wave plate (HWP) and the quarter-wave plate (QWP) as well as the angle error of the HWP. This technique is then applied to experiments on quantum state tomography on polarization qubits, leading to a 20-fold reduction in the systematic error. Our study may find applications in high-precision tasks in polarization optics and quantum optics.
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