题 目: Compasslike states for sub-Planck sensing
报 告 人: Dr. Naeem Akhtar 浙江师范大学
时 间: 2023年5月23日(星期二)下午2:00
链 接: 腾讯会议:639-282-984
邀 请 人: 汪涛
报告摘要:Heisenberg's principle states that the product of position and momentum uncertainty should be no less than the limit set by Planck's constant (ℏ). This is commonly interpreted to mean that phase-space structures associated with sub-Planck scales do not exist, or do not matter. However, non-local quantum superpositions (or ‘Schrödinger's cat’ states) that are confined to a phase-space volume characterized by the classical action A, much larger than ℏ, develop spotty structure on the sub-Planck scale, a = ℏ2/A<<1. These sub-Planck-scale phase-space features are found crucial in determining the sensitivity of these states to phase-space displacements. We introduced another set of compasslike (superposition of four coherent states) states having same sub-Planck-scale structures in phase space, and their impact on sensitivity to displacements (perturbations) is investigated. To construct the compass states, we concentrated on the Heisenberg-Weyl, SU(2), and SU(1,1) symmetries. Our work involves a Wigner analysis of such states as well as their susceptibility to phase-space displacements. These states have a substantially higher sensitivity to displacements than the conventional quantum limit, making them useful for quantum sensing applications.
报告人介绍:I have received my PhD degree from the University of Science and Technology of China (USTC) (Major: Physics, Quantum Information Physics) in 2021 under the supervision of Barry C. Sanders. During my PhD, I spent the most of my time at the Wilczeck Quantum Centre at Shanghai Jiao-Tong University, where I worked with Carlos Navarrete-Benlloch. I am currently a postdoctoral fellow at Zhejiang Normal University in group of Prof. Gao Xianlong.