原子计数与加速器质谱

IF 45.9 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Walter Kutschera, A. J. Timothy Jull, Michael Paul, Anton Wallner
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引用次数: 0

摘要

加速器质谱法(AMS)诞生于20世纪70年代末,当时人们在核物理实验室中意识到,加速器系统可以用作灵敏的质谱仪来测量长寿命放射性同位素的超低痕量。通过一个原子一个原子地计数放射性同位素离子,并将计数率与稳定同位素的离子电流(1.6 μA=1×1013单电荷离子/s)进行比较,很快就可以测量10−12至10−16范围内的放射性同位素与稳定同位素的比值。事实证明,静电串联加速器最适合于此,目前全球约有160个基于该原理的AMS设施。本文综述了自AMS被发现以来45年来的历史、技术发展和研究领域。AMS测量涉及许多不同的领域,包括考古学、天体物理学、大气科学、生物学、气候学、宇宙射线物理学、环境物理学、法医学、冰川学、地球气象学、水文学、冰芯研究、陨石学、核物理学、海洋学和粒子物理学。由于在本综述中几乎不可能详细讨论所有领域,因此只详细强调了最近取得进展的特定领域。对于其他方面,力求为各自领域的深入研究提供相关参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Atom counting with accelerator mass spectroscopy

Atom counting with accelerator mass spectroscopy
Accelerator mass spectrometry (AMS) was born in the late 1970s, when it was realized at nuclear physics laboratories that the accelerator systems can be used as a sensitive mass spectrometer to measure ultralow traces of long-lived radioisotopes. It soon became possible to measure radioisotope-to-stable-isotope ratios in the range from 1012 to 1016 by counting the radioisotope ions “atom by atom” and comparing the count rate with ion currents of stable isotopes (1.6μA=1×1013 singly charged ions/s). It turned out that electrostatic tandem accelerators are best suited for this, and there are now worldwide about 160 AMS facilities based on this principle. This review presents the history, technological developments, and research areas of AMS through the 45 yr since its discovery. Many different fields are touched by AMS measurements, including archaeology, astrophysics, atmospheric science, biology, climatology, cosmic-ray physics, environmental physics, forensic science, glaciology, geophormology, hydrology, ice core research, meteoritics, nuclear physics, oceanography, and particle physics. Since it is virtually impossible to discuss all fields in detail in this review, only specific fields with recent advances are highlighted in detail. For the others, an effort is made to provide relevant references for in-depth studies of the respective fields.
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来源期刊
Reviews of Modern Physics
Reviews of Modern Physics 物理-物理:综合
CiteScore
76.20
自引率
0.70%
发文量
30
期刊介绍: Reviews of Modern Physics (RMP) stands as the world's foremost physics review journal and is the most extensively cited publication within the Physical Review collection. Authored by leading international researchers, RMP's comprehensive essays offer exceptional coverage of a topic, providing context and background for contemporary research trends. Since 1929, RMP has served as an unparalleled platform for authoritative review papers across all physics domains. The journal publishes two types of essays: Reviews and Colloquia. Review articles deliver the present state of a given topic, including historical context, a critical synthesis of research progress, and a summary of potential future developments.
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