sQFT: An Autonomous Explanation of the Interactions of Quantum Particles

IF 1.2 3区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY Foundations of Physics Pub Date : 2024-08-18 DOI:10.1007/s10701-024-00795-1
K.-H. Rehren, L. T. Cardoso, C. Gass, J. M. Gracia-Bondía, B. Schroer, J. C. Várilly
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Abstract

Successful applications of a conceptually novel setup of Quantum Field Theory, that accounts for all subtheories of the Standard Model (QED, Electroweak Interaction and Higgs, Yang–Mills and QCD) and beyond (Helicity 2), call for a perspective view in a broader conceptual context. The setting is “autonomous” in the sense of being intrinsically quantum. Its principles are: Hilbert space, Poincaré symmetry and causality. Its free quantum fields are obtained from Wigner’s unitary representations of the Poincaré group, with only physical and observable degrees of freedom. A “quantization” of an “underlying” classical theory is not needed. It allows renormalizable perturbation theory with interactions whose detailed structure, and in some cases even the particle content, is predicted by internal consistency. The results confirm and extend observable predictions for the interactions of the Standard Model without assuming a “principle” of gauge invariance.

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sQFT:量子粒子相互作用的自主解释
量子场论的概念新颖,可解释标准模型的所有子理论(QED、电弱相互作用和希格斯、杨-米尔斯和 QCD)及更多理论(螺旋 2),它的成功应用需要在更广泛的概念背景下进行透视。从量子本质的意义上讲,这种设置是 "自主 "的。其原则是希尔伯特空间、Poincaré 对称性和因果性。它的自由量子场是从波恩卡列群的维格纳单元表征中获得的,只有物理和可观测的自由度。无需对 "底层 "经典理论进行 "量子化"。它允许可重正化的扰动理论与相互作用,其详细结构,在某些情况下甚至粒子内容,都是通过内部一致性来预测的。这些结果证实并扩展了对标准模型相互作用的可观测预测,而无需假定轨距不变性 "原则"。
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来源期刊
Foundations of Physics
Foundations of Physics 物理-物理:综合
CiteScore
2.70
自引率
6.70%
发文量
104
审稿时长
6-12 weeks
期刊介绍: The conceptual foundations of physics have been under constant revision from the outset, and remain so today. Discussion of foundational issues has always been a major source of progress in science, on a par with empirical knowledge and mathematics. Examples include the debates on the nature of space and time involving Newton and later Einstein; on the nature of heat and of energy; on irreversibility and probability due to Boltzmann; on the nature of matter and observation measurement during the early days of quantum theory; on the meaning of renormalisation, and many others. Today, insightful reflection on the conceptual structure utilised in our efforts to understand the physical world is of particular value, given the serious unsolved problems that are likely to demand, once again, modifications of the grammar of our scientific description of the physical world. The quantum properties of gravity, the nature of measurement in quantum mechanics, the primary source of irreversibility, the role of information in physics – all these are examples of questions about which science is still confused and whose solution may well demand more than skilled mathematics and new experiments. Foundations of Physics is a privileged forum for discussing such foundational issues, open to physicists, cosmologists, philosophers and mathematicians. It is devoted to the conceptual bases of the fundamental theories of physics and cosmology, to their logical, methodological, and philosophical premises. The journal welcomes papers on issues such as the foundations of special and general relativity, quantum theory, classical and quantum field theory, quantum gravity, unified theories, thermodynamics, statistical mechanics, cosmology, and similar.
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