利用俘获离子估算最佳温度的绝热传感技术

arXiv: Quantum Physics Pub Date : 2020-12-16 DOI:10.1103/PHYSREVRESEARCH.3.013244

Aleksandrina V. Kirkova, Weibin Li, P. Ivanov

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引用次数: 6

摘要

我们提出了一种绝热方法，利用捕获离子进行最佳声子温度估计，该方法可以在兰姆-迪克区之外运行。量子传感技术依赖于声子模式的时间依赖红边带跃迁，通常由非线性的Jaynes-Cummings模型描述。我们的传感技术的一个独特之处在于声子热分布的相关信息可以传递到集体自旋自由度上。我们表明，每个热态概率都绝热映射到各自的集体自旋激发构型上，因此温度估计只需在绝热跃迁结束时执行自旋相关的激光荧光测量即可进行。我们用Fisher信息描述了温度的不确定性，并证明了状态投影测量在热平衡状态下饱和了量子振荡器的基本量子Cram\ er \ rao界。

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Adiabatic sensing technique for optimal temperature estimation using trapped ions

We propose an adiabatic method for optimal phonon temperature estimation using trapped ions which can be operated beyond the Lamb-Dicke regime. The quantum sensing technique relies on a time-dependent red-sideband transition of phonon modes, described by the non-linear Jaynes-Cummings model in general. A unique feature of our sensing technique is that the relevant information of the phonon thermal distributions can be transferred to the collective spin-degree of freedom. We show that each of the thermal state probabilities is adiabatically mapped onto the respective collective spin-excitation configuration and thus the temperature estimation is carried out simply by performing a spin-dependent laser fluorescence measurement at the end of the adiabatic transition. We characterize the temperature uncertainty in terms of the Fisher information and show that the state projection measurement saturates the fundamental quantum Cram\'er-Rao bound for quantum oscillator at thermal equilibrium.

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arXiv: Quantum Physics

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