核电子学与探测技术
覈電子學與探測技術
핵전자학여탐측기술
NUCLEAR ELECTRONICS & DETECTION TECHNOLOGY
2015年
2期
141-145
,共5页
吴应宇%崔浩川%杨雯渊%苏为宁%赵经武
吳應宇%崔浩川%楊雯淵%囌為寧%趙經武
오응우%최호천%양문연%소위저%조경무
灵敏度补偿%多通道平行束准直器%蒙特卡洛%SPECT
靈敏度補償%多通道平行束準直器%矇特卡洛%SPECT
령민도보상%다통도평행속준직기%몽특잡락%SPECT
compensation performance of sensitivity%Multiplexing Parallel Beam%Monte Carlo simulation%SPECT
点源扩展函数PSF作为SPECT成像的一个重要参考,反映出相应准直器灵敏度和空间分辨率等的特性。本文在多通道平行束准直器MPB的几何框架下进行物理模型构建,解释了由探测器晶体厚度引起的PSF变化以及基于该变化进行的公式修正,指出了不利的因素,其结果与蒙特卡罗模拟基本吻合。在PSF基础上,结合蒙特卡洛模拟,指出了在准直器的拉伸过程中,斜平行束部分OPB的灵敏度变化特性和对准直器的补偿作用;通过两点源逐渐接近的过程,并与高灵敏度平行束准直器HSPB对比,指出MPB准直器在保持高灵敏度下,还能有高空间分辨率的原理,提出了一种设计高灵敏度和高空间分辨率准直器的方法。
點源擴展函數PSF作為SPECT成像的一箇重要參攷,反映齣相應準直器靈敏度和空間分辨率等的特性。本文在多通道平行束準直器MPB的幾何框架下進行物理模型構建,解釋瞭由探測器晶體厚度引起的PSF變化以及基于該變化進行的公式脩正,指齣瞭不利的因素,其結果與矇特卡囉模擬基本吻閤。在PSF基礎上,結閤矇特卡洛模擬,指齣瞭在準直器的拉伸過程中,斜平行束部分OPB的靈敏度變化特性和對準直器的補償作用;通過兩點源逐漸接近的過程,併與高靈敏度平行束準直器HSPB對比,指齣MPB準直器在保持高靈敏度下,還能有高空間分辨率的原理,提齣瞭一種設計高靈敏度和高空間分辨率準直器的方法。
점원확전함수PSF작위SPECT성상적일개중요삼고,반영출상응준직기령민도화공간분변솔등적특성。본문재다통도평행속준직기MPB적궤하광가하진행물리모형구건,해석료유탐측기정체후도인기적PSF변화이급기우해변화진행적공식수정,지출료불리적인소,기결과여몽특잡라모의기본문합。재PSF기출상,결합몽특잡락모의,지출료재준직기적랍신과정중,사평행속부분OPB적령민도변화특성화대준직기적보상작용;통과량점원축점접근적과정,병여고령민도평행속준직기HSPB대비,지출MPB준직기재보지고령민도하,환능유고공간분변솔적원리,제출료일충설계고령민도화고공간분변솔준직기적방법。
Point Spread Function is an important reference for SPECT image reconstruction, and it reflects the characteristic of collimator such as the sensitivity and the spatial resolution.We constructed the physical model which was based on the Multi Parallel Beam collimation in the paper, then explained the figure changes of the PSF caused by the thickness and modified the formula in order to find out what factors are against it.The calcu-lation results agree with the Monte Carlo simulation result.Base on the PSF and Monte Carlo simulation, we discuss the change of the sensitivity and compensate it in the process of stretching length of collimator.Through the comparison of the Multi Parallel Beam Collimator and the Parallel Beam Collimator with reducing of the dis-tance between two point sources, it is pointed out the reason why the MPB collimator can improve sensitivity while maintaining higher spatial resolution and the method of how to design the collimator which can have high sensitivity and high spatial resolution.