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核辐射探测与成像(英文版)
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作者魏清阳 著
出版社冶金工业出版社
出版时间2021-03
版次1
装帧平装
上书时间2024-09-23
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图书标准信息
- 作者 魏清阳 著
- 出版社 冶金工业出版社
- 出版时间 2021-03
- 版次 1
- ISBN 9787502487577
- 定价 76.00元
- 装帧 平装
- 开本 16开
- 页数 178页
- 【内容简介】
- 本书结合作者近几年的研究成果,主要内容包括:核辐射监测和成像,具体为国内首创的基于智能手机和监控摄像头CMOS传感器的核辐射测量、高灵敏度的能谱仪、具有定位和成像的探测器和设备,可应用于材料放射性检测、无损检测成像;在核医学上的应用,包括正电子发射断层成像PET设备和单光子发射断层成像设备SPECT,以及对应的高性能探测器和相关质控技术和数据处理算法。本书可供高等院校仪器、仪表专业的本科生、研究生学习参考,也可供从事核科学与技术相关领域的科技人员参考。
- 【目录】
-
1 Radiation Detection Technique using Smartphones
1.1 Introduction
1.2 Raydose-V1 App
1.2.1 Real-time Processing Algorithm
1.2.2 Dose Calibration Experiments
1.2.3 Performance Experiments
1.2.4 Results
1.2.5 Discussions
1.3 Raydose-V2
1.3.1 Image Processing Algorithms
1.3.2 Experiments
1.3.3 Result and Discussion
1.3.4 Summary
References
2 Radiation Detection Techniques using Surveillance Cameras
2.1 Introduction
2.2 Experiments
2.3 Algorithm
2.3.1 Moving-object Detection and Removal
2.3.2 Grayscale Processing and Gaussian Convolution
2.3.3 Inter-Frame Difference
2.3.4 Image Morphology Processing
2.3.5 Radiation-Information Extraction
2.4 Results
2.5 Discussion
2.6 Summary
References
3 A High Sensitivity NaI(TI) Spectrometry
3.1 Introduction
3.2 System Description
3.3 Experiments
3.4 Data Processing and Analysis
3.5 Results
3.5.1 Energy Shift of the Electronics
3.5.2 Average Pulse Waveforms
3.5.3 Energies of APWs
3.5.4 Energy Spectra
3.5.5 Energy Resolutions
3.6 Discussion and Conclusion
References
4 Radiation Location and Imaging using Scintillator Detectors
4.1 System 1 : An Attenuation based Sandwich Detector
4.1.1 Detector Scheme
4.1.2 Mathematical Model
4.1.3 Virtual Case Study
4.1.4 Experimental Results
4.1.5 Error Analysis
4.1.6 Summary
4.2 System 2: A 360 Degree Sensitive Detector
4.2.1 Description of the Design
4.2.2 Source Locating Algorithm
4.2.3 Verified Experiments
4.2.4 Experimental Results
4.2.5 Summary
4.3 System 3: A Direction-Sensitive Spherical Detector with 4π View
4.3.1 Description of the Design
4.3.2 System Components
4.4 System 4: A Coded-Aperture Camera for Radiation Imaging
4.4.1 Introduction
4.4.2 The MURA Mask
4.4.3 Scintillator Detector
4.4.4 Image Reconstruction
4.4.5 Radiation Imaging Studies
4.4.6 Image Registration
4.4.7 Summary
References
5 Nuclear Medical Imaging System
5.1 Introduction
5.1.1 Medical Imaging Technology
5.1.2 Molecular Imaging
5.1.3 Small Animal Imaging
5.2 SPECT Imaging
5.3 PET and PET/CT Imaging
5.4 A Compact Animal PET/SPECT/CT System
5.4.1 System Setup
5.4.2 Performance Evaluation
5.4.3 Results
5.4.4 Discussion and Conclusion
References
6 Intrinsic Radiation of Lutetium Based PET Detector
6.1 Introduction of Lutetium-176
6.2 The Drawbacks of IRL in PET
6.2.1 Common PET Imaging
6.2.2 Low Activity PET Imaging
6.2.3 Long Axial FOV PET
6.2.4 PET/SPECT Imaging
6.3 The Traditional Benefits of IRL in PET Systems
6.3.1 For Detector Study
6.3.2 For Monitoring PET Channel Gain Drift
6.3.3 For Time Alignment of TOF-PET
6.3.4 For Generating Transmission Image
6.4 For Pinhole Geometry Calibration
6.4.1 Lu-176 Based Calibration Method
6.4.2 Simulation Studies and Results
6.4.3 Experiment Studies and Results
6.5 For PET/CT Alignment
6.5.1 Introduction of PET/CT Alignment Calibration
6.5.2 Materials and Experiments
6.5.3 Transformation Matrix Generation Algorithm
6.5.4 Results
6.5.5 Discussions
6.5.6 Summary
6.6 Conclusions
References
7 High Performance Position Sensitive Scintillator Detectors for PET
7.1 Components of Detectors
7.1.1 Seintination Crystal Selection
7.1.2 Photodetector Selection
7.1.3 ASIC Chip
7.2 Experiment Platform
7.3 Detector Modules
7.3.1 8×8 Array Detector Module
7.3.2 12×12 Array Detector Module
7.3.3 16×16 Array Detector Module
7.3.4 22×22 Array Detector Module
7.4 PET Detectors with Air-gapped Pixelated LYSO
7.4.1 Single Crystal Experiment
7.4.2 8×8 LYSO Module Experi
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