一种用于正电子发射断层扫描的电离辐射检测的有前景的新机制:光学特性的调制。
A promising new mechanism of ionizing radiation detection for positron emission tomography: modulation of optical properties.
作者信息
Tao Li, Daghighian Henry M, Levin Craig S
机构信息
Department of Electrical Engineering, Stanford University, Stanford, CA, USA.
出版信息
Phys Med Biol. 2016 Nov 7;61(21):7600-7622. doi: 10.1088/0031-9155/61/21/7600. Epub 2016 Oct 7.
Abstract
Using conventional scintillation detection, the fundamental limit in positron emission tomography (PET) time resolution is strongly dependent on the inherent temporal variances generated during the scintillation process, yielding an intrinsic physical limit for the coincidence time resolution of around 100 ps. On the other hand, modulation mechanisms of the optical properties of a material exploited in the optical telecommunications industry can be orders of magnitude faster. In this paper we borrow from the concept of optics pump-probe measurement to for the first time study whether ionizing radiation can produce modulations of optical properties, which can be utilized as a novel method for radiation detection. We show that a refractive index modulation of approximately [Formula: see text] is induced by interactions in a cadmium telluride (CdTe) crystal from a 511 keV photon source. Furthermore, using additional radionuclide sources, we show that the amplitude of the optical modulation signal varies linearly with both the detected event rate and average photon energy of the radiation source.
摘要
使用传统的闪烁探测,正电子发射断层扫描(PET)时间分辨率的基本限制强烈依赖于闪烁过程中产生的固有时间变化,这导致符合时间分辨率的固有物理极限约为100 ps。另一方面,光通信行业所利用的材料光学特性的调制机制可能要快几个数量级。在本文中,我们借鉴光学泵浦-探测测量的概念,首次研究电离辐射是否能产生光学特性的调制,这可作为一种新型的辐射探测方法。我们表明,来自511 keV光子源的碲化镉(CdTe)晶体中的相互作用会诱导出约[公式:见原文]的折射率调制。此外,使用额外的放射性核素源,我们表明光调制信号的幅度与检测到的事件率和辐射源的平均光子能量均呈线性变化。
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