从微扰理论修正微因果关系

IF 5.3 2区物理与天体物理 Q1 Physics and Astronomy

Physical Review D Pub Date : 2025-10-17 DOI:10.1103/y5cg-1c7g

Giordano Cintia, Federico Piazza, Samuel Ramos

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引用次数: 0

摘要

相对论微因果性是局部场算子在光锥外交换的说法。众所周知，这种情况在低能量有效理论中会被打破，例如具有“错误符号”的导数相互作用项的P(X)模型。尽管它们是洛伦兹不变的形式，但这些理论可以在洛伦兹破溃背景下表现出超光速传播。我们通过计算位置空间中的全算子值换向子来研究这一现象。在对λϕ4理论进行测试后，我们将其应用于P(X)模型。在那里，我们证明了对自由理论换向子的微扰修正包含在标准Minkowski光锥上支持的δ函数的导数。当这些修正在洛伦兹不变状态上消失时，它们在洛伦兹对称性自发破缺的状态上被“激活”。在这种情况下，他们通过泰勒展开近似新的“音锥”。通过将线性响应理论应用于扩展源，我们表明，在这个扩展中，从标准因果关系的偏差已经存在于一阶。最后，我们试图理解洛伦兹不变性意味着微观因果关系的标准论证出了什么问题。

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Modified microcausality from perturbation theory

Relativistic microcausality is the statement that local field operators commute outside the light cone. This condition is known to break down in low-energy effective theories, such as P(X) models with a derivative interaction term of the “wrong sign.” Despite their Lorentz-invariant form, these theories can exhibit superluminal propagation on Lorentz-breaking backgrounds. We approach this phenomenon by computing the full operator-valued commutator in position space, perturbatively in interaction picture. After testing this formalism on a λϕ4 theory, we apply it to a P(X) model. There, we show that the perturbative corrections to the free-theory commutator contain derivatives of δ functions with support on the standard Minkowski light cone. While these corrections vanish on Lorentz-invariant states, they become “activated” on states where Lorentz symmetry is spontaneously broken. In this case, they approximate the new “sound cone” by means of a Taylor expansion. By applying linear response theory to an extended source, we show that deviations from standard causality are already present at first order in this expansion. Finally, we try to understand what goes wrong with the standard argument according to which Lorentz invariance implies microcausality.

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来源期刊

Physical Review D 物理-天文与天体物理

CiteScore

9.20

自引率

36.00%

发文量

审稿时长

2 months

期刊介绍： Physical Review D (PRD) is a leading journal in elementary particle physics, field theory, gravitation, and cosmology and is one of the top-cited journals in high-energy physics. PRD covers experimental and theoretical results in all aspects of particle physics, field theory, gravitation and cosmology, including: Particle physics experiments, Electroweak interactions, Strong interactions, Lattice field theories, lattice QCD, Beyond the standard model physics, Phenomenological aspects of field theory, general methods, Gravity, cosmology, cosmic rays, Astrophysics and astroparticle physics, General relativity, Formal aspects of field theory, field theory in curved space, String theory, quantum gravity, gauge/gravity duality.