NIST的量子真空计量

arXiv: Instrumentation and Detectors Pub Date : 2018-05-17 DOI:10.1002/https://dx.doi.org/10.1116/1.5033568

J. Scherschligt, J. Fedchak, Z. Ahmed, D. Barker, K. Douglass, S. Eckel, Edward Hanson, J. Hendricks, N. Klimov, T. Purdy, J. Ricker, Robinjeet Singh, J. Stone

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摘要

在国际单位制(SI)中实现和传播压力单位帕斯卡(Pa)的测量科学一直是美国国家标准与技术研究院(NIST)非常感兴趣的课题。研究了帕斯卡计量的现代光学技术，包括多光子电离和腔衰荡光谱。目前正在进行的工作是根据量子特性和基本常数来重新定义帕斯卡，这样做可以使真空计量学与基于量子的计量学的全球趋势保持一致。NIST正在进行的项目是使用低真空的光学腔来询问气体的折射率，并使用捕获的激光冷却原子来计算高真空到极高真空中的背景粒子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Quantum-based vacuum metrology at NIST

The measurement science in realizing and disseminating the unit for pressure in the International System of Units (SI), the pascal (Pa), has been the subject of much interest at the National Institute of Standards and Technology (NIST). Modern optical-based techniques for pascal metrology have been investigated, including multi-photon ionization and cavity ringdown spectroscopy. Work is ongoing to recast the pascal in terms of quantum properties and fundamental constants and in so doing, make vacuum metrology consistent with the global trend toward quantum-based metrology. NIST has ongoing projects that interrogate the index of refraction of a gas using an optical cavity for low vacuum, and count background particles in high vacuum to extreme high vacuum using trapped laser-cooled atoms.

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arXiv: Instrumentation and Detectors

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