A terminological history of early elementary particle physics

IF 0.7 2区 哲学 Q2 HISTORY & PHILOSOPHY OF SCIENCE
Helge Kragh
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Abstract

By 1933, the class of generally accepted elementary particles comprised the electron, the photon, the proton as well as newcomers in the shape of the neutron, the positron, and the neutrino. During the following decade, a new and poorly understood particle, the mesotron or meson, was added to the list. By paying close attention to the names of these and other particles and to the sometimes controversial proposals of names, a novel perspective on this well-researched line of development is offered. Part of the study investigates the circumstances around the coining of “positron” as an alternative to “positive electron.” Another and central part is concerned with the many names associated with the discovery of what in the late 1930s was generally called the “mesotron” but eventually became known as the “meson” and later again the muon and pion. The naming of particles in the period up to the early 1950s was more than just a matter of agreeing on convenient terms, it also reflected different conceptions of the particles and in some cases the uncertainty regarding their nature and relations to existing theories. Was the particle discovered in the cosmic rays the same as the one responsible for the nuclear forces? While two different names might just be synonymous referents, they might also refer to widely different conceptual images.

Abstract Image

早期基本粒子物理学的术语史
到1933年,普遍接受的基本粒子包括电子、光子、质子以及中子、正电子和中微子形式的新粒子。在接下来的十年里,一种新的、鲜为人知的粒子,介子,被添加到了这个列表中。通过密切关注这些粒子和其他粒子的名称,以及有时有争议的名称建议,为这一经过充分研究的发展路线提供了一个新的视角。这项研究的一部分调查了“正电子”作为“正电子”的替代品的产生情况。另一个也是中心的部分是与20世纪30年代末发现的通常被称为“介子”的物质有关的许多名称,但最终被称为”介子“,后来又被称为μ介子和π介子。直到20世纪50年代初,粒子的命名不仅仅是为了达成方便的术语,它还反映了粒子的不同概念,在某些情况下,还反映了它们的性质以及与现有理论的关系的不确定性。在宇宙射线中发现的粒子与产生核力的粒子相同吗?虽然两个不同的名字可能只是同义词,但它们也可能指代截然不同的概念图像。
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来源期刊
Archive for History of Exact Sciences
Archive for History of Exact Sciences 管理科学-科学史与科学哲学
CiteScore
1.30
自引率
20.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: The Archive for History of Exact Sciences casts light upon the conceptual groundwork of the sciences by analyzing the historical course of rigorous quantitative thought and the precise theory of nature in the fields of mathematics, physics, technical chemistry, computer science, astronomy, and the biological sciences, embracing as well their connections to experiment. This journal nourishes historical research meeting the standards of the mathematical sciences. Its aim is to give rapid and full publication to writings of exceptional depth, scope, and permanence.
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