Tan Kok Chuan, Narasimhachar Varun, Regula Bartosz
School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore 637371, Republic of Singapore.
Phys Rev Lett. 2021 Nov 12;127(20):200402. doi: 10.1103/PhysRevLett.127.200402.
We show that both the classical as well as the quantum definitions of the Fisher information faithfully identify resourceful quantum states in general quantum resource theories, in the sense that they can always distinguish between states with and without a given resource. This shows that all quantum resources confer an advantage in metrology, and establishes the Fisher information as a universal tool to probe the resourcefulness of quantum states. We provide bounds on the extent of this advantage, as well as a simple criterion to test whether different resources are useful for the estimation of unitarily encoded parameters. Finally, we extend the results to show that the Fisher information is also able to identify the dynamical resourcefulness of quantum operations.
我们表明,在一般量子资源理论中,费希尔信息的经典定义和量子定义都能如实地识别出有价值的量子态,即它们总能区分具有和不具有给定资源的态。这表明所有量子资源在计量学中都具有优势,并确立了费希尔信息作为探测量子态资源fulness的通用工具。我们给出了这种优势程度的界限,以及一个简单的标准来测试不同资源是否有助于估计酉编码参数。最后,我们扩展结果以表明费希尔信息还能够识别量子操作的动态资源fulness。