利用谐振腔改进隐藏光子探测的灵敏度

Younggeun Kim, S. Youn, Danho Ahn, Junu Jung, Dongok Kim, Y. Semertzidis
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引用次数: 4

摘要

类似于为类轴子粒子搜索提出的光穿透壁设置,一对谐振腔被考虑用于搜索额外的U(1)质量规范玻色子,称为隐藏光子,它介导隐藏扇区中的相互作用。我们提出了一种新的腔体结构,由一个圆柱形发射器和一个空心圆柱形探测器组成,可以显著提高实验对$\mu$eV质量范围内隐藏光子信号的灵敏度。为了获得最佳的谐振腔几何形状和谐振模式,进行了大量的研究。此外,还探讨了超导射频技术的可行应用。我们发现,这些潜在改进的集成将使隐藏光子与标准模型光子之间的有效动力学混合参数的灵敏度提高多个数量级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sensitivity improvement in hidden photon detection using resonant cavities
Analogous to the light-shining-through-wall setup proposed for axion-like particle searches, a pair of resonant cavities have been considered to search for an extra U(1) massive gauge boson, called a hidden photon, which mediates the interactions in the hidden sector. We propose a new cavity configuration, consisting of a cylindrical emitter surrounded by a hollow cylindrical detector to remarkably improve experimental sensitivity to hidden photon signals in the $\mu$eV mass range. An extensive study was conducted to find the optimal cavity geometry and resonant mode, which yields the best performance. In addition, a feasible application of superconducting RF technology was explored. We found the integration of these potential improvements will enhance the sensitivity to the effective kinetic mixing parameter between the hidden photon and the Standard Model photon by multiple orders of magnitude.
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