| 报告题目: |
Enhancing quantum metrology by adaptive Hamiltonian control |
| 报告人: |
庞盛世博士 University of Rochester |
| 报告人单位: |
University of Rochester |
| 报告时间: |
5月15号星期二下午3点 |
| 报告地点: |
科技楼北410会议室 |
| 报告摘要: |
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Quantum metrology is to improve the sensitivity of measurements by exploiting quantum resources. In this presentation, I will give a brief introduction to quantum metrology, and discuss increasing the precision of quantum metrology by Hamiltonian control. I will extend quantum metrology to the estimation of general Hamiltonian parameters, then show how to design proper Hamiltonian control to optimize the Fisher information of quantum metrology. In particular, it shows that for a single spin in a rotating magnetic field, the optimal Hamiltonian control can boost the time scaling of Fisher information for the rotation frequency to T^4, which breaks the classical limit T^2. Finally, the effect of cross-overs in the Hamiltonian derivatives will be discussed. |
