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电离室电流测量的下一代技术。

The next generation of current measurement for ionization chambers.

作者信息

Fitzgerald R, Bergeron D E, Giblin S P, Jarrett D G, Judge S M, Michotte C, Scherer H, Zimmerman N M

机构信息

NIST, USA.

NIST, USA.

出版信息

Appl Radiat Isot. 2020 Sep;163:109216. doi: 10.1016/j.apradiso.2020.109216. Epub 2020 May 13.

DOI:10.1016/j.apradiso.2020.109216
PMID:32561054
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7539794/
Abstract

Re-entrant ionization chambers (ICs) are essential to radionuclide metrology and nuclear medicine for maintaining standards and measuring half-lives. The requirements of top-level metrology demand that systems must be precise and stable to 0.1 % over many years, and linear from 10 A to 10 A. Thus, laboratories depend on bespoke current measurement systems and often rely on sealed sources to generate reference currents. To maintain and improve present capabilities, metrologists need to overcome two looming challenges: ageing electronics and decreasing availability of sealed sources. Possible solutions using Ultrastable Low-Noise Current Amplifiers (ULCAs), resistive-feedback electrometers, and (quantum) single-electron pumps are reviewed. Broader discussions of IC design and methodology are discussed. ULCAs show promise and resistive-feedback systems which take advantage of standard resistor calibrations offer an alternative.

摘要

再入式电离室对于放射性核素计量学和核医学中维持标准以及测量半衰期至关重要。顶级计量学的要求是,系统必须在多年内精确且稳定至0.1%,并且在10⁻¹² A至10⁻⁴ A范围内呈线性。因此,实验室依赖定制的电流测量系统,并且常常依靠密封源来产生参考电流。为了维持和提升当前能力,计量学家需要克服两个迫在眉睫的挑战:电子设备老化以及密封源的可获得性降低。本文综述了使用超稳定低噪声电流放大器(ULCA)、电阻反馈静电计以及(量子)单电子泵的可能解决方案。文中还讨论了关于电离室设计和方法的更广泛内容。超稳定低噪声电流放大器显示出前景,而利用标准电阻校准的电阻反馈系统提供了一种替代方案。

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