Scintillator energy and flux linearity for RbGd/sub 2/Br/sub 7/:Ce, LaCl/sub 3/:Ce, and LaBr/sub 3/:Ce

2002 IEEE Nuclear Science Symposium Conference Record Pub Date : 2002-11-10 DOI:10.1109/NSSMIC.2002.1239477

W. Barber, K. Iwata, J. Glodo, M. Klugerman, A. Sakdinawat, B. Hasegawa, K. Shah

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引用次数: 1

Abstract

The development of scintillator detectors made of dense ionic crystals with high light output and fast response times offers to improve radiation detection systems commonly employed in medical imaging. Three such cerium doped materials, rubidium gadolinium bromide (RbGd/sub 2/Br/sub 7/:Ce), lanthanum chloride (LaCl/sub 3/:Ce), and lanthanum bromide (LaBr/sub 3/:Ce) show promise as bright, fast scintillators with good energy resolution for gamma rays. To be useful as gamma-ray detectors for positron emission tomography (PET) and single photon emission computed tomography (SPECT) applications, the signal from these scintillators should have a linear energy response. To be useful as x-ray detectors in computed tomography (CT) applications, the output of these scintillators must be linear over a wide range of flux rates. We have therefor measured the response of these scintillators to different energy gamma-rays with a detector operated in pulse counting mode. We have also measured the range of linear response to diagnostic x-rays, of these materials, with a detector operated in current mode with a sigma-delta analog to digital converter (ADC). We find a linear energy response for all three materials from 60 keV to 662 keV. We find a linear x-ray flux response to five decades of flux for RbGd/sub 2/Br/sub 7/:Ce and four decades of flux for LaCl/sub 3/:Ce and LaBr/sub 3/:Ce. The current in the photodiode is proportional to the x-ray flux in the scintillators provided that direct interactions between x-rays and the photodiode are subtracted. This is accomplished by measuring the photodiode current with and without optical opaque tape between the scintillator and photodiode. Coupling dense scintillators to radiation hard solid state detectors may allow for configurations useful for both low flux gamma-ray and high flux x-ray detection which could improve dual-modality imaging techniques such as combined CT/SPECT and CT/PET.

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RbGd/sub 2/Br/sub 7/:Ce、LaCl/sub 3/:Ce和LaBr/sub 3/:Ce的闪烁体能量和通量线性

由高光输出和快速响应时间的密集离子晶体制成的闪烁体探测器的发展为改进医学成像中常用的辐射检测系统提供了帮助。三种这样的铈掺杂材料，溴化铷钆(RbGd/sub 2/Br/sub 7/:Ce)、氯化镧(LaCl/sub 3/:Ce)和溴化镧(LaBr/sub 3/:Ce)有望成为明亮、快速的闪烁体，对伽马射线具有良好的能量分辨率。作为伽马射线探测器用于正电子发射断层扫描(PET)和单光子发射计算机断层扫描(SPECT)应用，这些闪烁体的信号应该具有线性能量响应。为了在计算机断层扫描(CT)应用中用作x射线探测器，这些闪烁体的输出必须在很宽的通量范围内呈线性。因此，我们用脉冲计数模式下的探测器测量了这些闪烁体对不同能量伽马射线的响应。我们还测量了这些材料对诊断x射线的线性响应范围，使用带有sigma-delta模拟数字转换器(ADC)的电流模式检测器。我们发现，从60 keV到662 keV，这三种材料的能量响应都是线性的。我们发现RbGd/sub 2/Br/sub 7/:Ce的50年通量和LaCl/sub 3/:Ce和LaBr/sub 3/:Ce的40年通量具有线性的x射线通量响应。如果减去x射线与光电二极管之间的直接相互作用，则光电二极管中的电流与闪烁体中的x射线通量成正比。这是通过测量在闪烁体和光电二极管之间有和没有光学不透明带的光电二极管电流来完成的。将密集闪烁体耦合到辐射硬固态探测器上，可以实现对低通量伽马射线和高通量x射线探测有用的配置，从而改进双模成像技术，如CT/SPECT和CT/PET组合。

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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2002 IEEE Nuclear Science Symposium Conference Record

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