● 2025.12 – 至今　清华大学工程物理系，长聘教授/博导

● 2023.03 – 2025.12　清华大学工程物理系，长聘副教授/博导

● 2018.03 – 2023.03　清华大学工程物理系，准聘副教授/博导

● 2016.07 – 2018.03　RefleXion Medical，Senior CT Systems Scientist

● 2013.09 – 2016.07　GE Healthcare，Senior Advanced Systems Scientist

● 2010.10 – 2013.09　GE Global Research，CT Physicist

● 2008.10 – 2010.09　Stanford University，Postdoctoral Fellow

● 主讲本科生课程《信号与系统》（30320354，4学分/64学时）

● 指导毕业博士生2人，在读博士生6人，硕士生1人

主要从事X射线CT成像的前沿基础研究与关键技术创新，近年科研工作包括：

● 锥束CT能谱成像，面向精准图像引导放射治疗与介入诊疗等应用领域

● 光子计数CT高清定量成像，主要面向高端医学诊断与工业检测等应用领域

● 多光束CT快速成像，面向快速安全查验与灵活诊断等应用领域

作为项目负责人，承担以下项目：

● 2025 - 2028，直线兆伏能谱CT的相空间扩张线性玻尔兹曼输运方程快速散射校正，北京市自然科学基金联合基金重点项目

● 2024 - 2027，高分辨双能谱平板探测器技术研发及样机研制，国家重点研发计划项目

● 2023 - 2025，面向介入诊疗精准脑成像的C型臂能谱CT关键技术创新，国家重点研发计划项目

● 2021 - 2024，口腔锥束CT能谱成像关键技术研究，国家自然科学基金联合基金重点支持项目

● 2021 - 2024，基于时空混合能谱调制的新型锥束CT定量成像物理和关键技术研究，国家自然科学基金面上项目

● 2019 - 2022，大容积多能量CT关键技术研究，青年人才经费支持项目

● 2018 - 2021，新型图像引导CT成像技术研究，新教师启动经费支持项目

作为核心骨干人员，承担以下项目：

● 2022 - 2025，海关行包监管大通道超快高清静态CT装备研制，国家重点研发计划课题

● 2016 - 2018，生物学引导放射治疗仪（BgRT），美国RefleXion Medical公司新产品研发

● 2013 - 2016，超高端医学诊断CT宽体能谱成像（Revolution CT GSI Xtream），美国通用电气医疗集团新产品研发

● 2010 - 2013，超高端医学诊断CT（Revolution CT），美国通用电气全球研发中心新技术研发

● 2010 - 2013，心脏CT先进构架与算法研究，美国NIH资助项目

● 2008 - 2010，高性能散射校正，美国NIH资助项目

部分发表论文

1.  Yuting Chen, Yuxiang Xing, Li Zhang, Zhi Deng, and Hewei Gao*, “Energy-Threshold Bias Calculator: A Physics-Model Based Adaptive Correction Scheme for Photon-Counting CT,” IEEE Transactions on Medical Imaging, 2026.

2.  Yifan Deng, N. Robert Bennett, Hewei Gao*, and Adam S. Wang, “A comparative analysis of two dual-layer flat panel detector designs and mimicking of a triple-layer flat panel detector in spectral CT,” Medical Physics, 53(2): e70338, 2026.

3.  邓一凡,高河伟. 时空混合能谱调制锥束CT成像中的调制器设计. CT理论与应用研究, 34(6): 1068-1081, 2025.

4.  Hao Zhou, Yifan Deng, and Hewei Gao*, “Improved fast kV-switching dual-energy CBCT with a spectral modulator: System design and a feasibility study,” Medical Physics, 52(8): e18024, 2025.

5.  Yingxian Xia, Li Zhang, Yuxiang Xing, Zhiqiang Chen*, and Hewei Gao*, “ComptoNet: a Compton-map guided deep learning framework for multi-scatter estimation in multi-source stationary CT,” Physics in Medicine and Biology, 70(14): 145022, 2025.

6.  Yifan Deng, Hao Zhou, and Hewei Gao*, “Penumbra-effect induced spectral mixing in x-ray computed tomography: a multi-ray spectrum estimation model and subsampled weighting algorithm,” Physics in Medicine and Biology, 70(8): 085013, 2025.

7.  夏颖贤,陈志强,张丽,邢宇翔,高河伟*. 基于等角多段探测器的非均匀采样CT直接FBP重建算法研究. 中国体视学与图像分析, 29(02): 106-115, 2024.

8.  Hao Zhou, Li Zhang, Zhilei Wang and Hewei Gao*, “Fast-kV switching and dual-layer flat panel detector enabled CBCT Joint Spectral Imaging,” Physics in Medicine and Biology, 69(11): 115005, 2024.

9.  Yifan Deng, Hao Zhou, Zhilei Wang, Adam S. Wang, and Hewei Gao*, “Multi-energy blended CBCT spectral imaging and scatter-decoupled material decomposition using a spectral modulator with flying focal spot (SMFFS),” Medical Physics, 51(4): 2398-2412, 2024.

10.  Zhilei Wang, Hao Zhou, Shan Gu, Yingxian Xia, Haiyue Liao, Yifan Deng, and Hewei Gao*, “Dual-Energy Head Cone-Beam CT Using a Dual-Layer Flat-Panel Detector: Hybrid Material Decomposition and a Feasibility Study,” Medical Physics, 50(11): 6762-6778, 2023.

11.  Yingxian Xia, Li Zhang, Yuxiang Xing, Zhiqiang Chen*, and Hewei Gao*, “Generalized-Equiangular Geometry CT: Concept and Shift-Invariant FBP Algorithms,” Medical Physics, 50(8): 5150-5165, 2023.

12.  顾珊,周浩,王志磊,高河伟*. 基于层间无金属滤波片的双层平板探测器X射线及CT成像性能评估. 中国体视学与图像分析, 27(2):81-88, 2022.

13.  Chengpeng Wu, Yuxiang Xing, Li Zhang*, Zhiqiang Chen, Xiaohua Zhu, Xi Zhang, and Hewei Gao*, “Fluence adaptation for contrast-based dose optimization in x-ray phase-contrast imaging,” Medical Physics, 48(10): 6106-6120, 2021.

14.  Chengpeng Wu, Yuxiang Xing, Li Zhang*, Xinbin Li, Xiaohua Zhu, Xi Zhang, and Hewei Gao*, “Fourier-based interpretation and noise analysis of the moments of small-angle x-ray scattering in grating-based x-ray phase contrast imaging,” Optics Express, 29(14): 21902-21920, 2021.

15.  Hewei Gao*, Tao Zhang, N. Robert Bennett, and Adam S. Wang, “Densely sampled spectral modulation for x-ray CT using a stationary modulator with flying focal spot: a conceptual and feasibility study of scatter and spectral correction,” Medical Physics, 48(4): 1557-1570, 2021.

16.  Tao Zhang, Zhiqiang Chen, Hao Zhou, N. Robert Bennett, Adam S. Wang, and Hewei Gao*, “An analysis of scatter characteristics in x-ray CT spectral correction,” Physics in Medicine and Biology, 66(7): 075003, 2021.

17.  Tao Zhang, Li Zhang, Zhiqiang Chen*, Yuxiang Xing, and Hewei Gao*, “Fourier Properties of Symmetric-Geometry Computed Tomography and Its Linogram Reconstruction with Neural Network,” IEEE Transactions on Medical Imaging, 39(12): 4445-4457, 2020.

18.  Tao Zhang, Yuxiang Xing, Li Zhang, Xin Jin, Hewei Gao*, and Zhiqiang Chen*, “Stationary computed tomography with source and detector in linear symmetric geometry: Direct filtered backprojection reconstruction,” Medical Physics, 47(5): 2222-2236, 2020.

19.  Chengpeng Wu, Li Zhang, Zhiqiang Chen, Yuxiang Xing, Xinbin Li, Xiaohua Zhu, Carolina Arboleda, Zhentian Wang, and Hewei Gao*, “The trigonometric orthogonality of phase-stepping curves in grating-based x-ray phase-contrast imaging: Integral property and its implications for noise optimization,” Medical Physics, 47(3): 1189-1198, 2020.

20.  Hewei Gao*, Li Zhang, Rainer Grimmer, and Rebecca Fahrig, “Physics-based spectral compensation algorithm for X-ray CT with primary modulator,” Physics in Medicine and Biology, 64(12): 125006, 2019.

21.  Hewei Gao*, Lei Zhu, and Rebecca Fahrig, “Virtual Scatter Modulation for X-ray CT Scatter Correction Using Primary Modulator,” Journal of X-ray Science and Technology, 25(6):869-885, 2017.

22.  Hewei Gao*, Li Zhang*, Zhiqiang Chen, Yuxiang Xing, Hui Xue, and Jianping Cheng, “Straight-Line-Trajectory-Based X-Ray Tomographic Imaging for Security Inspections: System Design, Image Reconstruction and Preliminary Results,” IEEE Transactions on Nuclear Science, 60(5):3955-3968, 2013.

23.  Hewei Gao*, Lei Zhu, and Rebecca Fahrig, “Modulator design for X-ray scatter correction using primary modulation: Material selection,” Medical Physics, 37(8):4029-4037, 2010.

24.  Hewei Gao*, Rebecca Fahrig, N. Robert Bennett, Mingshan Sun, Josh Star-Lack, and Lei Zhu, “Scatter correction method for X-ray CT using primary modulation: Phantom studies,” Medical Physics, 37(2):934-946, 2010.

25.  Hewei Gao*, Li Zhang*, Yuxiang Xing, Zhiqiang Chen, and Jianping Cheng, “An improved form of linogram algorithm for image reconstruction,” IEEE Transactions on Nuclear Science, 55(1):552-559, 2008.

26.  Hewei Gao*, Li Zhang, Zhiqiang Chen, Yuxiang Xing, Jianping Cheng, and Yigang Yang, “Application of X-ray CT to liquid security inspection: system analysis and beam hardening correction,” Nuclear Instruments & Methods in Physics Research Section A, 579(1):395-399, 2007.

27.  Hewei Gao*, Li Zhang, Yuxiang Xing, Zhiqiang Chen, Jian Zhang, and Jianping Cheng, “Volumetric imaging from a multisegment straight-line-trajectory and a practical reconstruction algorithm,” Optical Engineering, 46(7):077004, 2007.

28.  Hewei Gao*, Li Zhang, Zhiqiang Chen, Yuxiang Xing, Jianping Cheng, and Zhihua Qi, “Direct filtered-backprojection-type reconstruction from a straight-line trajectory,” Optical Engineering, 46(5):057003, 2007.

29.  Hewei Gao*, Li Zhang*, Zhiqiang Chen, Yuxiang Xing, and Shuanglei Li, “Beam hardening correction for middle-energy industrial computerized tomography,” IEEE Transactions on Nuclear Science, 53(5):2796-2807, 2006.

部分授权专利

1.  Hewei Gao, and Zhihui Sun, “Hybrid Linearization Scheme for X-ray CT Beam Hardening Correction,” US patent granted, Appl. No. US17/220,443, Patent No. 12059285B2, Aug 13, 2024.  

2.  Hewei Gao, Zhiqiang Chen, Li Zhang, Yuxiang Xing, “Tomographic imaging and image-guided radiation therapy apparatus,” US patent granted, Appl. No. US16/966,547, Patent No. US11179579B2, Nov 23, 2021.

3.  Hewei Gao, Girijesh Yadava, Adam Cohen, and Brian Nett, “Systems and methods for iterative multi-material correction of image data,” US patent granted, Appl. No. US14/070,252, Patent No. US9683948B2, Jun 20, 2017.  

4.  Hewei Gao, Tonghe Wang, Jiahua Fan, and Guangzhi Cao, “Systems and methods for spectral CT imaging,” US patent granted, Appl. No. US14/567828, Patent No. US9585626B2, Mar 7, 2017.

5.  Hewei Gao, Girijesh Yadava, Adam Cohen, and Yannan Jin, “System and method for multi-material correction of image data,” US patent granted, Appl. No. US14/535,017, Patent No. US9374565B2, Jun 21, 2016.  

6.  高河伟; 张丽; 邢宇翔; 陈志强; 宋雨康; 王振天; 李亮. 基于分布式小微焦点X射线源的CT成像系统及方法. 申请号：202411380858.5, 授权公告号：CN119438258B, 授权日期：2025-10-28.

7.   高河伟;张丽;邢宇翔;李亮;邓智. 多能量X射线锥束CT成像系统及方法. 申请号: 202110693179.3, 授权公告号: CN113281358B, 授权日期: 2022-09-23.

8.  高河伟;顾珊;张丽;邢宇翔;李亮;邓智. 基于双层平板探测器锥束CT的散射校正方法及装置. 申请号: 202110661232.1, 授权公告号: CN113237903B, 授权日期: 2022-06-10.

9.  高河伟;祁宾祥;邢宇翔;张丽;王森. 光子计数能谱CT成像中自适应能谱优化方法及其应用. 申请号: 202010562558.4, 授权公告号: CN111707688B, 授权日期: 2021-10-01.

10.  高河伟; 邢宇翔;张丽;陈志强;祁宾祥;李亮;肖永顺. 多源多探测器结合的CT系统及方法. 申请号: 201910248711.3, 授权公告号: CN109953768B, 授权日期: 2021-01-05.

全部论文参见Google Scholar学术档案：

https://scholar.google.com/citations?user=JOl6xOoAAAAJ&hl=zh-CN&oi=ao

● 2024至今　美国医学物理学家协会（AAPM）锥束CT分委会委员

● 2023至今　《Medical Physics》期刊副主编（Associate Editor）

● 2023至今　《中国体视学与图像分析》期刊副主编

● 2022至今　中国体视学学会CT理论与应用分会委员

● 2022至今　中国体视学学会青年工作委员会委员

● 2021至今　《CT理论与应用研究》期刊编委、副主编

● 2021至今　中国体视学学会理事会理事

● 2021至今　Fully3D Meeting国际会议科学委员会委员

● 2020至今　中国体视学学会智能成像分会委员、常务委员

● 2024　国家高层次人才计划校企联聘学者

● 2024　全国发明展览会金奖（5/10）

● 2023　清华大学先进工作者

● 2022　北京市科学技术进步奖一等奖（8/15）

● 2022　北京市本科毕业设计（论文）优秀指导教师

● 2018　国家海外高层次人才引进计划青年项目

● 2008　清华大学优秀博士学位论文（二等奖）