Institute of Quantum Electronics, Peking University

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1. Weinan Tang, HongyuSun,and Weimin Wang*, A digital receiver module with direct data acquisition for magnetic resonance imaging systems, REVIEW OF SCIENTIFIC INSTRUMENTS, Volume: 83,Issue: 10, 2012
2. Xiao Liang,Wang Weimin*, A radio-frequency source using direct digital synthesis and field programmable gate array for nuclear magnetic resonance, REVIEW OF SCIENTIFIC INSTRUMENTS, Volume: 80 Issue: 12, 2009
3. Weinan Tang, Weimin Wang*, A single-board NMR spectrometer based on a software defined radio architecture, MEASUREMENT SCIENCE & TECHNOLOGY, Volume: 22, Issue: 1, 2011
4. Qi Feng,TangXin,ZuDonglin, Jin Zhe, Jiang Zhongde, Wang Weimin*, A hybrid optimization method for biplanar transverse gradient coil design, JOURNAL OF PHYSICS D-APPLIED PHYSICS, Volume: 40, Issue: 9, 2988-2993, 2007
5. Weinan Tang, Weimin Wang*, Highly Integrated Gradient Pulse Generator for Magnetic Resonance Imaging System, CONCEPTS IN MAGNETIC RESONANCE PART B-MAGNETIC RESONANCE ENGINEERING, Volume: 39B, Issue: 2, 59-63, 2011
6. Xu Yue, Wang Wentao, Wang Weimin*, Design of an interventional magnetic resonance imaging coil for cerebral surgery, CHINESE PHYSICS B, Volume: 21, Issue: 11, 2012
7. Jiang Zhimin, Wang Weimin*, A Method of Choosing the Optimal Number of Singular Values in the Inverse Laplace Transform for the Two-Dimensional NMR Distribution Function, CHINESE PHYSICS LETTERS, Volume: 30, Issue: 1, 2013
8. Jin Zhe, Tang Xin, Wang Weimin*, A method for shimming a permanent magnet with FEA, JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL, Volume: 13, 423-426 ,2006
9. Meng Bin, Huang Kaiwen, Wang Weimin*, A novel radio frequency coil for veterinary magnetic resonance imaging system, CHINESE PHYSICS B, Volume: 19, Issue: 7, 2010
10. Wang Weimin*, Zhao Gang, Gu Changchun, Sui Mingqing, Experiment and application of NMR technology on cuttings, Petroleum Exploration and Development, 32(1), 56-59, 2005
11.Jin Zhe, Tang Xing, Meng Bin, ZuDonglin, Wang Weimin*, A SQP optimization method for shimming a permanent MRI magnet, PROGRESS IN NATURAL SCIENCE, Volume: 19,Issue: 10 , 1439-1443, 2009
12. Qi Feng, Tang Xin, Wang Weimin*, Shen Yifei, Liu Shaopo, Jiang Zhongde, A new simulated annealing method of designing NMR biplanar shim coils, PROGRESS IN NATURAL SCIENCE Volume: 16, Issue: 7, 747-752, 2006
13. Tang Weinan, Wang Weimin*, A low-cost multichannel spectrometer for magnetic resonance imaging, 5th International Conference on Bioinformatics and Biomedical Engineering, Wuhan,2011.05.10-12
14. Wang Longqing, Wang Weimin*, Multi-objective optimization of gradient coil for benchtop magnetic resonance imaging system with high-resolution, CHINESE PHYSICS B, Volume: 23 Issue: 2,2014
15. 肖亮，汤伟男，王为民*，基于单片FPGA的磁共振成像梯度计算模块，27(2)，163-171，2010
16. 李睿，肖亮，王为民*，磁共振成像信号的数字化接收系统设计，波谱学杂志，26(3)， 359-368，2009
17. 王洪，熊泽冲，林先钗，王为民*，基于模块计算机的千兆网磁共振谱仪控制接口，波谱学杂志，29(4)，499-507，2012
18. 孟小海,姜志敏,史京生,曲岩涛,王为民*. 二维核磁共振观测岩石润湿性. 波谱学杂志, 2012,Vol. 29(2), 190-200.
19. 曲岩涛，姜志敏，史京生，朱涛涛，孟小海，王为民*. 水驱油过程的核磁共振二维谱研究. 波谱学杂志, 2012 Vol. 29 (1): 51-59.
20. Tang WN, Wang W et al. A home-built digital optical MRI console using high-speed serial links.Magnetic Resonance in Medicine.2014 Aug 8.doi:10.1002.
21. 王为民, 叶朝辉, 郭和坤. 陆相储层岩石核磁共振物理特征的实验研究. 波谱学杂志, 2001年02期.
22. Wang Weimin. Multi-exponential Inversions of Nuclear Magnetic Resonance Relaxation Signal.Science in China (Series A), 2001, 44(11).
23. Du Xiaoji, Wang Weimin. Design of Superconducting magnet for 1.5T Dedicated Extremity MRI System. IEEE Transactions on Applied Superconductivity, Volume: 24 Issue: 3, June 2014.

参与编写专著情况：
1. 王洪，福海鸿，王为民，徐惠。“医学磁共振成像（MRI）设备技术学”，中国医药科技出版，30万字，2011。

获得奖励情况：
1. 王为民，李培，肖亮，黄开文，唐新，徐雷，医用磁共振成像技术研究与开发，北京市科委，科学技术奖，三等奖，2010
2. 王为民等，核磁共振岩性测试系统研制及应用， 1999年荣获石油天然气集团公司科技进步一等奖。
3. 王为民等，核磁共振成像技术在油藏工程中应用， 1996年荣获石油天然气集团公司科技进步二等奖。
获得发明专利情况：
1. 王为民，卜凡亮，周德开，董增仁，适于便携式核磁共振装置使用的永磁体，2008.7，中国，ZL200410030688.4
2. 王为民，唐昕，周德开，李培，张海涛，一种全开放式磁共振成像用永磁磁体，2010.7，中国, ZL200610114716.X
3. 王为民，李培，周德开，黄开文，平面有源屏蔽梯度线圈的制作方法，2010.5，中国，ZL200610144180.6
4. 王为民，卜凡亮，用岩石核磁共振弛豫信号测量地层岩石物性的设备及测量方法， 2008.3，中国, ZL200410083878.2

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