BabyIAXO太阳轴子射线追踪的精确响应

IF 5.5 1区 物理与天体物理 Q1 Physics and Astronomy
IAXO collaboration, S. Ahyoune, K. Altenmüller, I. Antolín, S. Basso, P. Brun, F. R. Candón, J. F. Castel, S. Cebrián, D. Chouhan, R. Della Ceca, M. Cervera-Cortés, V. Chernov, M. M. Civitani, C. Cogollos, E. Costa, V. Cotroneo, T. Dafní, A. Derbin, K. Desch, M. C. Díaz-Martín, A. Díaz-Morcillo, D. Díez-Ibáñez, C. Diez Pardos, M. Dinter, B. Döbrich, I. Drachnev, A. Dudarev, A. Ezquerro, S. Fabiani, E. Ferrer-Ribas, F. Finelli, I. Fleck, J. Galán, G. Galanti, M. Galaverni, J. A. García, J. M. García-Barceló, L. Gastaldo, M. Giannotti, A. Giganon, C. Goblin, N. Goyal, Y. Gu, L. Hagge, L. Helary, D. Hengstler, D. Heuchel, S. Hoof, R. Iglesias-Marzoa, F. J. Iguaz, C. Iñiguez, I. G. Irastorza, K. Jakovčić, D. Käfer, J. Kaminski, S. Karstensen, M. Law, A. Lindner, M. Loidl, C. Loiseau, G. López-Alegre, A. Lozano-Guerrero, B. Lubsandorzhiev, G. Luzón, I. Manthos, C. Margalejo, A. Marín-Franch, J. Marqués, F. Marutzky, C. Menneglier, M. Mentink, S. Mertens, J. Miralda-Escudé, H. Mirallas, F. Muleri, V. Muratova, J. R. Navarro-Madrid, X. F. Navick, K. Nikolopoulos, A. Notari, A. Nozik, L. Obis, A. Ortiz-de-Solórzano, T. O’Shea, J. von Oy, G. Pareschi, T. Papaevangelou, G. Pareschi, K. Perez, O. Pérez, E. Picatoste, M. J. Pivovaroff, J. Porrón, M. J. Puyuelo, A. Quintana, J. Redondo, D. Reuther, A. Ringwald, M. Rodrigues, A. Rubini, S. Rueda-Teruel, F. Rueda-Teruel, E. Ruiz-Chóliz, J. Ruz, J. Schaffran, T. Schiffer, S. Schmidt, U. Schneekloth, L. Schönfeld, M. Schott, L. Segui, U. R. Singh, P. Soffitta, D. Spiga, M. Stern, O. Straniero, F. Tavecchio, E. Unzhakov, N. A. Ushakov, G. Vecchi, J. K. Vogel, D. M. Voronin, R. Ward, A. Weltman, C. Wiesinger, R. Wolf, A. Yanes-Díaz, Y. Yu
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引用次数: 0

摘要

BabyIAXO是将在DESY举办的国际轴子天文台(IAXO)的中间阶段。它的主要目标是在轴子太阳镜技术之后探测太阳轴子。轴子在指向太阳的大磁铁中转化为光子。产生的x射线通过适当的x射线光学聚焦,并由放置在焦点上的敏感的低背景探测器检测。本文的目的是对轴子检测中涉及的不同组件(如磁铁、光学器件和x射线探测器)提供准确的定量描述。我们的工作重点是开发强大的集成软件工具来模拟这些太阳镜组件,使未来对IAXO轴子太阳镜的任何部分的修改或升级进行评估,并评估对实验灵敏度的潜在影响。在这篇论文中,我们通过给出一个精确的信号计算和BabyIAXO对轴-光子耦合灵敏度的响应分析来演示这些工具的应用。虽然我们关注的是Primakoff太阳通量组件,但我们的虚拟太阳镜模型可以用来测试不同的产生机制,允许在统一的框架内进行直接比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An accurate solar axions ray-tracing response of BabyIAXO

BabyIAXO is the intermediate stage of the International Axion Observatory (IAXO) to be hosted at DESY. Its primary goal is the detection of solar axions following the axion helioscope technique. Axions are converted into photons in a large magnet that is pointing to the sun. The resulting X-rays are focused by appropriate X-ray optics and detected by sensitive low-background detectors placed at the focal spot. The aim of this article is to provide an accurate quantitative description of the different components (such as the magnet, optics, and X-ray detectors) involved in the detection of axions. Our efforts have focused on developing robust and integrated software tools to model these helioscope components, enabling future assessments of modifications or upgrades to any part of the IAXO axion helioscope and evaluating the potential impact on the experiment’s sensitivity. In this manuscript, we demonstrate the application of these tools by presenting a precise signal calculation and response analysis of BabyIAXO’s sensitivity to the axion-photon coupling. Though focusing on the Primakoff solar flux component, our virtual helioscope model can be used to test different production mechanisms, allowing for direct comparisons within a unified framework.

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来源期刊
Journal of High Energy Physics
Journal of High Energy Physics 物理-物理:粒子与场物理
CiteScore
10.30
自引率
46.30%
发文量
2107
审稿时长
1.5 months
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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