施文格与科尔曼磁荷重正化

IF 5.4 1区 物理与天体物理 Q1 Physics and Astronomy
Joshua Newey, John Terning, Christopher B. Verhaaren
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引用次数: 0

摘要

两个U(1)规理论的动力学混合会产生一个无质量光子,它与电荷和磁荷都有微扰耦合。这个框架可以用来在量子场论中对两种电荷进行微扰计算。在这里,我们重新研究了磁荷的运行,施文格和科尔曼在这方面的计算存在着尖锐的分歧。我们计算了电耦合和磁耦合的运行,并证明施温格和科尔曼之间的分歧是由于扰动序列中拓扑项求和不完全造成的。我们提出了计算环路修正的动量空间处方,其中拓扑项可以系统地分离出来进行求和。本着现代振幅方法的精神,我们避免使用矢量势,而是使用场强本身,从而以斯托克斯面的几何冗余换取量规冗余。由此得出的耦合运行结果表明,正如科尔曼所预言的那样,狄拉克电荷量子化与重正化尺度无关。作为一个简单的应用,我们还通过对电磁耦合运行的实验测量来约束磁荷态的参数空间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Schwinger vs Coleman: Magnetic charge renormalization

The kinetic mixing of two U(1) gauge theories can result in a massless photon that has perturbative couplings to both electric and magnetic charges. This framework can be used to perturbatively calculate in a quantum field theory with both kinds of charge. Here we reexamine the running of the magnetic charge, where the calculations of Schwinger and Coleman sharply disagree. We calculate the running of both electric and magnetic couplings and show that the disagreement between Schwinger and Coleman is due to an incomplete summation of topological terms in the perturbation series. We present a momentum space prescription for calculating the loop corrections in which the topological terms can be systematically separated for resummation. Somewhat in the spirit of modern amplitude methods we avoid using a vector potential and use the field strength itself, thereby trading gauge redundancy for the geometric redundancy of Stokes surfaces. The resulting running of the couplings demonstrates that Dirac charge quantization is independent of renormalization scale, as Coleman predicted. As a simple application we also bound the parameter space of magnetically charged states through the experimental measurement of the running of electromagnetic coupling.

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来源期刊
Journal of High Energy Physics
Journal of High Energy Physics 物理-物理:粒子与场物理
CiteScore
10.30
自引率
46.30%
发文量
2107
审稿时长
1.5 months
期刊介绍: The aim of the Journal of High Energy Physics (JHEP) is to ensure fast and efficient online publication tools to the scientific community, while keeping that community in charge of every aspect of the peer-review and publication process in order to ensure the highest quality standards in the journal. Consequently, the Advisory and Editorial Boards, composed of distinguished, active scientists in the field, jointly establish with the Scientific Director the journal''s scientific policy and ensure the scientific quality of accepted articles. JHEP presently encompasses the following areas of theoretical and experimental physics: Collider Physics Underground and Large Array Physics Quantum Field Theory Gauge Field Theories Symmetries String and Brane Theory General Relativity and Gravitation Supersymmetry Mathematical Methods of Physics Mostly Solvable Models Astroparticles Statistical Field Theories Mostly Weak Interactions Mostly Strong Interactions Quantum Field Theory (phenomenology) Strings and Branes Phenomenological Aspects of Supersymmetry Mostly Strong Interactions (phenomenology).
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