波谱学杂志 ›› 2004, Vol. 21 ›› Issue (1): 33-40.

• 研究论文 • 上一篇    下一篇

L波段三维ESR成像系统的研制(Ⅳ)——系统组成与各部分性能指标

吴可*,丛建波,张清俊,先 宏,王长振,孙存普   

  1. 军事医学科学院放射医学研究所,国家生物医学分析中心自由基与顺磁共振实验室,北京 100850;吉林大学,分析测试中心, 吉林长春 130022
  • 收稿日期:2003-05-19 修回日期:2003-06-30 出版日期:2004-03-05 发布日期:2004-03-05
  • 基金资助:

    国家自然科学基金资助项目(29935080)

L-BAND THREE DIMENSIONAL ESR IMAGING SYSTEM(Ⅳ)——System Configuration and Performance Features

WU Ke*, CONG Jian-Bo, ZHANG Qing-Jun, XIAN Hong, WANG Chang-Zhen, SUN Cun-Pu, ZHENG Ying-Guang, XU Jing, DONG Feng-Xia, CHEN Er-Zhong, XU Yu-Shu   

  1. Institute of Radiation Medicine, Academy of Military Medical Science, National Center of Biomedical Analgsis, FR&ESR Lab, Beijing 100850, China;Analytic and Measure Center, Jilin University, Changchun 130022, China
  • Received:2003-05-19 Revised:2003-06-30 Online:2004-03-05 Published:2004-03-05
  • Supported by:

    国家自然科学基金资助项目(29935080)

摘要:

报道了自行研制的L波段三维电子自旋共振成像(3D-ESRI)系统的整机结构及各部分性能指标. 该系统主要由L波段ESR谱仪、三维梯度磁场装置、数据处理及图像重建软件组成. 系统的微波频率为1.05 GHz;最大微波功率500 mW. 采用3-环2-缝再进入式谐振腔,无载Q值>1 000;最大测量体积为φ 20 mm, 高30 mm柱状水溶液样品. 接收系统采用100 kHz锁相放大电路,最大增益可达1×106;时间常数0.02 ms~1 s;磁场调制幅度>0.5 mT. 最大梯度磁场2 mT/cm;三维梯度线性度均优于5 %;稳定度可达10-5;主磁场可在1.6~96 mT范围内任意点选择扫场起始点;在0.2~16 mT范围选择磁场扫描宽度. 数据系统为12位A/D实现数据采集,三路8位D/A控制梯度磁场. 采用滤波反投影法实现图像重建, 成像功能包括: 二维、三维自旋浓度成像;等浓度线2D图像显示;3D立体和断层图像显示等. 对水溶液和固体模型样品进行ESR成像的结果表明:本系统可以开展较大体积生物样品的ESRI研究.

关键词: 电子自旋共振, 3D-ESR成像, L波段, 系统组成,  , 性能指标

Abstract:

Configuration and performance features of the newly developed L-band three-dimensional ESR imaging system were introduced. The main components of the ESRI system include a set of L-band ESR spectrometer, the three dimensional gradient magnetic field system  and the imaging reconstruction software. The microwave system worked at the frequency of 1.05 GHz with more than 500 mW microwave power. The phase-locking receiver was set to work at 100 kHz modulation frequency with a modulation amplitude of more than 0.5 mT. Receiver gain could be set up to 1×10+6 and time constant was adjustable from 0.02 ms to 1 s. The sample cavity was a threelooptwogap reentrance one which had an unloaded Q-value of more than 1 000 and had a cylindrical sensitive volume of 2 cm in diameter and 3 cm in length. The maximum gradient strength could be 2 mT/cm with spatial linearity of better than 5% in all three dimensions. Field stability was about 10-5. Main magnet strength and the scanning range of the magnetic field were 1.6~96 mT and 0.2~16 mT respectively. Data system worked on a 12-bit A/D card for data acquisition. Three channels of 8-bit D/A converter were used for gradient control. Spectrum processing functions included integration, base line correction, resolution enhancement, spectrum deconvolution and noise filtering. Imaging functions included two and three dimensional imaging reconstruction, 2D image display of spin intensity isograms, 3D image display of contour and computed tomography. The preliminary results of imaging of biological equivalent samples, such as large volume solution phantoms, suggested that the present ESRI system was capable of imaging biological samples in combination with spin labeling techniques.

Key words: ESR, 3D-ESRI, L-band, system configuration, performance feature

中图分类号: