Scattering amplitudes from dispersive iterations of unitarity

IF 5 1区 物理与天体物理 Q1 PHYSICS, PARTICLES & FIELDS
Piotr Tourkine, Alexander Zhiboedov
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引用次数: 9

Abstract

A bstract We present and numerically implement a computational method to construct relativistic scattering amplitudes that obey analyticity, crossing, elastic and inelastic unitarity in three and four spacetime dimensions. The algorithm is based on the Mandelstam representation of the amplitude and iterations of unitarity. The input for the iterative procedure is given by the multi-particle double spectral density, the S-wave inelasticity, and the value of the amplitude at the crossing-symmetric point. The output, obtained at the fixed point of the iteration of unitarity, is a nonperturbative scattering amplitude. The amplitudes we obtain exhibit interesting features, such as non-zero particle production, intricate high-energy and near the two-particle threshold behavior. Scattering amplitudes obtained by initializing the iteration process with zero (or small) multi-particle input end up close to saturating the S-matrix bounds derived by other methods. There is a version of the iterative algorithm that is directly related to Feynman diagrams: it effectively re-sums infinitely many two-particle reducible planar Feynman graphs in the ϕ 4 theory, which remarkably produces a unitary nonperturbative scattering amplitude function. Finally, we discuss how the algorithm can be further refined by including multi-particle unitarity.
统一性色散迭代的散射振幅
本文提出并数值实现了一种在三维和四维时空中构造服从解析性、交叉性、弹性和非弹性统一的相对论性散射振幅的计算方法。该算法是基于曼德尔斯塔姆表示的振幅和迭代的一致性。迭代过程的输入由多粒子双谱密度、s波非弹性和交叉对称点处的振幅值给出。在一致性迭代的不动点处得到的输出是一个非微扰散射振幅。我们得到的振幅表现出一些有趣的特征,如非零粒子产生、复杂的高能和接近两粒子阈值的行为。通过初始化零(或小)多粒子输入迭代过程得到的散射振幅最终接近于其他方法导出的s矩阵边界的饱和。有一个版本的迭代算法与费曼图直接相关:它有效地重新求和无限多个两粒子可约平面费曼图中的φ 4理论,这显著地产生了一个统一的非微扰散射振幅函数。最后,我们讨论了如何通过包含多粒子统一性来进一步改进算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of High Energy Physics
Journal of High Energy Physics PHYSICS, PARTICLES & FIELDS-
CiteScore
10.00
自引率
46.30%
发文量
2107
审稿时长
12 weeks
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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