Field-theoretical aspects of Brout-Englert-Higgs physics

布劳特-恩格勒特-希格斯物理学的场论方面

• 批准号: 415504349
• 负责人: Dr. René Sondenheimer
• 金额: --
• 依托单位: Fachbereich Theoretische Physik
• 依托单位国家: 德国
• 项目类别: Research Fellowships
• 财政年份: 2018
• 资助国家: 德国
• 起止时间: 2017-12-31 至 2020-12-31
• 项目状态: 已结题
• 来源: https://gepris.dfg.de/gepris/projekt/415504349?language=en
• 关键词: Field; theoretical; aspects; Brout; Englert

The discovery of the Higgs boson at the Large Hadron Collider confirmed our current picture of the interactions between the elementary building blocks of our Universe. The theoretical prediction as well as the experimental confirmation of the Higgs mechanism and the standard model of particle physics counts as a paradigm for the fruitful interplay between both. Despite the unprecedented achievement of the standard model in explaining the interactions between the currently known elementary particles, it has some shortcomings. For instance, it does not provide a reasonable explanation for neither the origin of dark matter nor the hierarchy of the coupling strengths and masses of the various particles. Furthermore, the standard model becomes inconsistent from a mathematical viewpoint at high energy scales due to the so-called triviality problem. Therefore, the standard model is only considered as an effective theory which has to be replaced by a more fundamental model. Also many of the proposed standard-model extensions rely on a generalized Higgs mechanism. Thus, a comprehensive understanding of this key ingredient in the formulation of these theories is mandatory. The objective of the project Field-theoretical aspects of Brout-Englert-Higgs physics is to obtain a deeper and thorough understanding of a consistent mathematical formulation as well as to uncover the resulting field-theoretical implications for the particle spectrum of the theory. In order to calculate the mass spectrum, various tools are available like perturbation theory, lattice simulations, or functional methods. In particular, same mass spectrum for the particles occurring in the standard model is obtained from the different methods. Moreover, Fröhlich, Morchio, and Strocchi developed a formalism which connects the results of the different methods in a surprising and nontrivial way and provide a proper gauge-invariant definition for the particle spectrum. However, it turns out that the situation is more involved for theories beyond the standard model. Recent lattice data show a mismatch between the particle spectrum predicted by perturbation theory and the one obtained from lattice simulations in a specific model. In order to get a more comprehensive understanding of such a possible mismatch, the method developed by Fröhlich, Morchio, and Strocchi shall be generalized and applied to various standard-model extensions for the first time. This will provide further constraints on existing models but will also offer new routes for model building. In addition, innovative and powerful renormalization group techniques will be used as a complementary tool to further examine the results. These allow for a continuous transition from microscopic quantum fluctuations to macroscopic observable degrees of freedom of a theory and thus will add another viewpoint on the mass spectrum.

希格斯玻色子在大型强子对撞机上的发现证实了我们目前对宇宙基本组成部分之间相互作用的认识。希格斯机制和粒子物理学标准模型的理论预测和实验证实是两者之间富有成果的相互作用的范例。尽管标准模型在解释目前已知的基本粒子之间的相互作用方面取得了前所未有的成就，但它仍有一些缺点。例如，它既没有为暗物质的起源提供合理的解释，也没有为各种粒子的耦合强度和质量的等级提供合理的解释。此外，由于所谓的琐碎性问题，从数学角度来看，标准模型在高能量尺度上变得不一致。因此，标准模型只被认为是一种有效的理论，必须被更基本的模型所取代。此外，许多被提议的标准模型扩展都依赖于广义希格斯机制。因此，在这些理论的制定中，对这一关键因素的全面理解是强制性的。Brout-Englert-Higgs物理学场论方面项目的目标是对一致的数学公式获得更深入和彻底的理解，并揭示理论的粒子谱的场论含义。为了计算质谱，可以使用各种工具，如微扰理论，晶格模拟或泛函方法。特别是，用不同的方法得到了出现在标准模型中的粒子的相同的质谱。此外，Fröhlich、Morchio和Strocchi发展了一种形式主义，它以一种令人惊讶和非凡的方式将不同方法的结果联系起来，并为粒子谱提供了适当的规范不变定义。然而，事实证明，这种情况更多地涉及标准模型之外的理论。最近的晶格数据表明，微扰理论预测的粒子谱与特定模型中晶格模拟得到的粒子谱不匹配。为了更全面地理解这种可能的错配，我们需要将Fröhlich、Morchio和strochi开发的方法进行推广，并首次应用到各种标准模型扩展中。这将对现有模型提供进一步的约束，但也将为模型构建提供新的途径。此外，创新和强大的重整化群技术将被用作进一步检查结果的补充工具。这些允许从微观量子波动到宏观可观察的理论自由度的连续过渡，从而将在质谱上增加另一种观点。

项目成果

Gauge-invariant description of the Higgs resonance and its phenomenological implications

希格斯共振的规范不变描述及其现象学含义

• DOI: 10.1103/physrevd.102.113001
• 期刊: Physical Review D
• 影响因子: 5
• 作者: Axel Maas;René Sondenheimer
• 通讯作者: René Sondenheimer

Testing the mechanism of lepton compositeness

测试轻子复合性机制

• DOI: 10.21468/scipostphys.10.3.062
• 期刊: SciPost Physics
• 影响因子: 5.5
• 作者: Vincenzo Afferrante;Axel Maas;René Sondenheimer;Pascal Törek.
• 通讯作者: Pascal Törek.

Analytical relations for the bound state spectrum of gauge theories with a Brout-Englert-Higgs mechanism

具有布劳特-恩格勒特-希格斯机制的规范理论束缚态谱的解析关系

• DOI: 10.1103/physrevd.101.056006
• 期刊: Physical Review D
• 影响因子: 5
• 作者: René Sondenheimer

Scheme dependence of asymptotically free solutions

依赖渐近自由解方案

• DOI: 10.1140/epjc/s10052-019-6956-4
• 期刊: The European Physical Journal C
• 作者: Holger Gies;René Sondenheimer;Alessandro Ugolotti;Luca Zambelli.
• 通讯作者: Luca Zambelli.