教师信息

教师姓名:彭 浩
单 位 物理科学与技术学院
职 称 教授博导
学 历 博士研究生
E-mail dualenergy2016@outlook.com
研究方向 医学物理,分子影像,核探测器,质子治疗,智能医疗

详细描述

      彭浩,男,武汉大学物理科学与技术学院教授、博士生导师,同时任美国斯坦福大学和日本北海道大学访问教授。研究方向集中在核医学影像设备和质子治疗的研究和开发。2010年加入加拿大麦克马斯特大学担任助理教授和分子影像开发小组负责人,2015年升为副教授并获得终身教职。2017年入选中组部青年千人计划,加入武汉大学负责医学物理学科建设。

      本人领导的小组研究领域包括:PET/MRI双模成像设备,乳房和心脏专用的PET设备,高分辨率的小动物PET设备,高性能半导体核探测器及电路,基于CMOS工艺的数字探测器,高速图像重建算法和粒子治疗。近年来的研究成果发表在Physics in Medicine and BiologyIEEE Transactions on Nuclear ScienceNucl Instr Meth A, PhysicaMedicaIEEE Transactions on ElectronDevicesIEEE Transactions on Biomedical Circuits and Systems, Cancer Research等杂志。研究项目获得美国的NIHCalifornia Breast CancerFoundation 的资助,加拿大的NSERC DiscoveryNSERC Collaborative ResearchDevelopmentCanadian Breast Cancer FoundationCanada Foundation of Innovation的资助,日本的Kakenhi Grant-in-Aid的资助。开展的研究和工业界有紧密的联系,合作伙伴包括Hamamatsu PhotonicsSensLCAENRedlen Technologies, Gamma Medica IdeasGE Healthcare IBM Canada

      本小组常年招收特聘研究员、硕士和博士研究生,欢迎对以下研究领域感兴趣的优秀人才加入。

 
 
1.     PET/MRI双模和专用PET成像设备
 Peng H and Levin C. Recent developments in PET instrumentation. Current Pharmaceutical Biotechnology. 11, pp555-571, 2010.
 Peng H, Handler W, Simpson P J and Chronik B A. Proof-of-principle study of a small animal PET/ field cycled MRI combined system using conventional PMT technology. Nucl Instr Meth A., 612, pp412-420, 2010.
 OlcottP D, Peng H and LevinCS. Novel Electro-Optical Coupling Technique for Magnetic Resonance-Compatible Positron Emission Tomography Detectors. Molecualr Imagign., pp74-86, 2010.
 Peng H and Levin C S. Study of PET intrinsic spatial resolution and contrast recovery improvement for PET/MRI systems. Phys. Med. Biol., 57, pp. 101-115, 2012.
 Peng H and Levin C S. Design study of a high-resolution breast dedicated PET system built from cadmium zinc telluride detectors. Phys. Med. Biol., 55, pp2761-88, 2010.
 Liang Y C and Peng H. Performance simulation of a compact PET insert for simultaneous PET/MR breast imaging. Nucl Instr Meth A., 751, pp23-30, 2014.
 Liang Y C and Peng H. Spatial resolution recovery utilizing multi-ray tracing and graphic processing unit in PET image reconstruction. Phys. Med. Biol., 60, pp1217-37, 2015.
 
2. 新型核探测器的设计和开发
 Peng H, Olcott P, Spanoudaki V and Levin C S . Investigation of a clinical PET detector module design that employs large-area avalanche photodetectors. Phys. Med. Biol., 56, pp3603-27, 2011.
 Downie E, Yang X, and Peng H. Investigation of analog charge multiplexing schemes for SiPM based PET block detectors. Phys. Med. Biol., 58, pp3943-64, 2013.
 Yang X, Downie E, Farrell T and Peng H. Study of light transport inside scintillation crystals for PET detectors. Phys. Med. Biol., 58, pp2143-61, 2013.
 Peng H. Considerations of peak-to-valley ratio and signal-to-noise ratio for Anger-logic based PET detector designs. Nucl Instr Meth A., 798, pp88-98, 2015.
 Zheng X Q, Cheng Z, Deen M and Peng H. Improving the spatial resolution in CZT detectors using charge sharing effect and transient signal analysis: simulation study. Nucl Instr Meth A., 808, pp60-70, 2016.
 
3. 基于CMOS工艺的PET探测器设计和开发
 Cheng Z, Zheng X Q, Deen M and Peng H. A Comprehensive and Accurate Analytical SPAD Model for Circuit Simulation. IEEE Transactions on Electron Devices. 63, pp1940-1948, 2016.
 Cheng Z, Zheng X Q, Deen M and Peng H. Recent Developments and Design Challenges of High-Performance Ring Oscillator CMOS Time-to-Digital Converters. IEEE Transactions on Electron Devices. 63, pp235-251, 2016.
Cheng Z, Zheng X Q, Deen M and Peng H. A Comprehensive and Accurate Analytical SPAD Model for Circuit Simulation. IEEE Transactions on Electron Devices. 63, pp1940-1948, 2016.
 
4. 质子治疗
 Peng H and Xing L. Neural network-based range verification for proton therapy based on prompt gamma emissions. AAPM Annual Meeting, 2017, USA.
 Makarova A, Shirato H, Umegaki K, Xing L and Peng H. Study of polarization-based PET coincidence discrimination for range verification in proton therapy. PTCOG 2017, Japan. 
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