Controlled Shifts Of X-Ray Emission Lines Measured With Transition Edge Sensors at the Advanced Photon Source

IF 1.7 3区物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Applied Superconductivity Pub Date : 2025-02-13 DOI:10.1109/TASC.2025.3540045

Tejas Guruswamy;Orlando Quaranta;Lisa Gades;Umeshkumar Patel;Antonino Miceli

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Abstract

The measurement of shifts in the energy of X-ray emission lines is important for understanding the electronic structure and physical properties of materials. In this study, we demonstrate a method using a synchrotron source to introduce controlled eV-scale shifts of a narrow line in between fixed-energy fluorescence lines. We use this to characterize the ability of a hard X-ray superconducting Transition Edge Sensor (TES) array to measure line shifts. Fixed fluorescence lines excited by higher harmonics of the monochromatic X-ray beam are used for online energy calibration, while elastic scattering from the primary harmonic acts as the variable energy emission line under study. We use this method to demonstrate the ability to track shifts in the energy of the elastic scattering line of magnitude smaller than the TES energy resolution, and find we are ultimately limited by our calibration procedure. The method can be applied over a wide X-ray energy range and provides a robust approach for the characterization of the ability of high-resolution detectors to detect X-ray emission line shifts, and the quantitative comparison of energy calibration procedures.

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测量 X 射线发射线的能量移动对于了解材料的电子结构和物理性质非常重要。在本研究中，我们展示了一种利用同步辐射源在固定能量荧光线之间引入窄线可控 eV 级移动的方法。我们用它来描述硬 X 射线超导过渡边缘传感器 (TES) 阵列测量线偏移的能力。由单色 X 射线束的高次谐波激发的固定荧光线用于在线能量校准，而来自主谐波的弹性散射则充当所研究的可变能量发射线。我们用这种方法证明了跟踪弹性散射线能量变化的能力，其量级小于 TES 能量分辨率，并发现我们最终受到了校准程序的限制。该方法可应用于宽广的 X 射线能量范围，为鉴定高分辨率探测器探测 X 射线发射线偏移的能力以及定量比较能量校准程序提供了一种可靠的方法。

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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来源期刊

IEEE Transactions on Applied Superconductivity 工程技术-工程：电子与电气

CiteScore

3.50

自引率

33.30%

发文量

650

审稿时长

2.3 months

期刊介绍： IEEE Transactions on Applied Superconductivity (TAS) contains articles on the applications of superconductivity and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Large scale applications include magnets for power applications such as motors and generators, for magnetic resonance, for accelerators, and cable applications such as power transmission.