Undulators are ALP Factories

arXiv - PHYS - Instrumentation and Detectors Pub Date : 2024-08-30 DOI:arxiv-2408.17451

Wen Yin, Junya Yoshida

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Abstract

Axion-like particles (ALPs) are known to be produced through axion-photon conversion in the presence of a stationary external magnetic field. Devices such as undulators and wigglers, which are used widely for photon production, e.g., in synchrotron radiation facilities, inherently possess strong magnetic fields, making them potential sources for ALP production. In this paper, we establish formalisms and formulas for studying ALP production in the ALP-photon-charged current system based on quantum field theory. We demonstrate that ALP production is inevitable in any undulator with the standard designs due to the electron Coulomb potential as well as a resonance effect depending on the ALP mass. In particular, ALPs are predominantly produced in a direction slightly misaligned with the photons' main direction. We propose placing detectors in the desired directions during operations of the originally planned experiments as an efficient approach to simultaneously probing ALPs. The calculation methods and formulas developed in this study are applicable to ALP production from other environments and productions of other particles beyond the standard model relevant to synchrotron radiations.

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解旋器是 ALP 工厂

众所周知，类轴子粒子（ALP）是在静止的外部磁场中通过轴子-光子转换产生的。在同步辐射设施等光子生产中广泛使用的起伏器和摇摆器等设备本身具有强磁场，使它们成为产生ALP的潜在来源。本文以量子场论为基础，建立了研究ALP-光子带电电流系统中ALP产生的形式和公式。我们证明，由于电子库仑势以及取决于 ALP 质量的共振效应，在任何具有标准设计的起振子中，ALP 的产生都是不可避免的。特别是，ALP 主要是在与光子主方向略微错位的方向上产生的。我们建议在原计划实验的操作过程中，在所需方向上放置探测器，作为同时探测 ALP 的有效方法。本研究中开发的计算方法和公式适用于其他环境中产生的ALP，以及与同步辐射相关的标准模型之外的其他粒子的产生。

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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arXiv - PHYS - Instrumentation and Detectors

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