非线性电磁学中的光子频率变化

arXiv - PHYS - General Physics Pub Date : 2024-04-27 DOI:arxiv-2404.18951

Alessandro D. A. M. Spallicci, Abedennour Dib, José A. Helayël-Neto

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引用次数: 0

摘要

我们设定了一个广义非线性拉格朗日，其中包括玻恩-因费尔德理论和海森堡-欧勒理论。该拉格朗日在最低阶还原为麦克斯韦拉格朗日。场由电磁背景中传播的光波构成。当背景与时空相关时，光波表现出能量变化。在光子描述中，这意味着能量变化或蓝移，就像我们在大质量理论（如德布罗意-普罗卡理论）或有效质量理论（如洛伦兹对称违反下的标准模型扩展）中得到的那样。光子能量守恒和频移这两个结果对于非线性电磁学来说是全新的。最后，我们讨论了这些静态频移如何与膨胀红移相加，从而为宇宙学或原子光谱提供新的解释。最后，我们还考虑了Poincar\'e 对称性的后果。

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Photon frequency variation in non-linear electro-magnetism

We set a generalised non-linear Lagrangian, encompassing Born-Infeld and Heisenberg-Euler theories among others. The Lagrangian reduces to the Maxwell Lagrangian at lowest order. The field is composed by a propagating light-wave in an electro-magnetic background. The wave exhibits energy variation when the background is space-time dependent. In the photon description, this implies a red or a blue shift, like what we obtained in massive theories, as the de Broglie-Proca or effective mass theories as the Standard-Model Extension under Lorentz symmetry violation. The two results, photon energy-conservation and the frequency shift are instead new for non-linear electro-magnetism. We conclude by discussing how these static frequency shifts when added to the expansion red shift allow new interpretations in cosmology or for atomic spectra. We finally consider the consequences on the Poincar\'e symmetry.

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arXiv - PHYS - General Physics

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