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引用次数: 0
摘要
作为弱核力的媒介,W玻色子影响着基本粒子及其相互作用的许多特性。几十年来,尽可能准确地了解 W 玻色子,包括知道它的质量,一直是粒子物理学的当务之急。在过去的几年里,随着多个实验的测量精度不断提高,CDF 协作组织已经记录了测量质量与预测质量之间的显著差距。此外,不同测量结果之间也存在较小的差异。由于 W 玻色子的质量提供了一个了解新物理的窗口,对不同测量技术进行比较可以为进一步的研究提供信息。这篇 "视角 "文章概述了 W 玻色子质量在粒子物理标准模型及其扩展中的作用,比较和对比了其测量技术,并讨论了前景和未来方向。
The precision measurement of the W boson mass and its impact on physics
As a mediator of the weak nuclear force, the W boson influences many
properties of fundamental particles and their interactions. Understanding the W
boson as accurately as possible, including knowing its mass, has been a
priority in particle physics for decades. In the past few years, in a
succession of increasing-precision measurements by multiple experiments, a
significant tension between the measured and predicted mass has been documented
by the CDF Collaboration. Furthermore, smaller differences between different
measurements exist. Because the W boson mass provides a window on new physics,
a comparison between different measurement techniques can inform the path to
further investigations. This Perspective article overviews the role of the W
boson mass in the Standard Model of Particle Physics and its extensions,
compares and contrasts its measurement techniques and discusses prospects and
future directions.