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地球物理学报 2013

基于多匝环形线圈的核磁共振信号响应计算与试验研究

DOI: 10.6038/cjg20130734, PP. 2484-2493

易晓峰,李鹏飞,林君,段清明,蒋川东,李同

Keywords: 核磁共振,传递特性,多匝线圈,地下水

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Abstract:

核磁共振接收信号的质量主要受探测天线的传递特性影响,当传递特性较差时,严重影响测量效果.结合目前国内外核磁共振找水仪天线的研制情况,给出了接收天线传递特性的计算方法,根据数值计算结果讨论了影响传递特性的天线参数.利用吉林大学研制的核磁共振找水仪进行实际测试,结果证明与讨论结果一致.本文得出的传递特性影响因素和接收信号质量评估方法,可以为不同类型核磁共振找水仪天线的设计提供依据,将促使核磁共振方法在复杂地形环境找水及隧道、矿井灾害水源探测等方面得到有效应用.

References

[1]	林君, 段清明, 王应吉等. 核磁共振找水仪原理与应用. 北京: 科学出版社, 2011: 2-3. Lin J, Duan Q M, Wang Y J, et al. Theory and Design of Magnetic Resonance Sounding Instrument for Groundwater Detection and Its Applications (in Chinese). Beijing: Science Press, 2010: 2-3.
[2]	翁爱华, 王雪秋, 刘国兴等. 导电性影响的地面核磁共振反演. 地球物理学报, 2007, 50(3): 890-896. Weng A H, Wang X Q, Liu G X, et al. Nonlinear inversion of surface nuclear magnetic resonance over electrically conductive medium. Chinese J. Geophys. (in Chinese), 2007, 50(3): 890-896.
[3]	Legchenko A, Baltassata J M, Beaucea A, et al. Nuclear magnetic resonance as a geophysical tool for hydrogeologists. Journal of Applied Geophysics, 2002, 50(1-2): 21-46.
[4]	蒋川东, 林君, 段清明等. 二维阵列线圈核磁共振地下水探测理论研究. 地球物理学报, 2011, 54(11): 2973-2983. Jiang C D, Lin J, Duan Q M, et al. A study on 2D Magnetic Resonance Sounding with an array loop for groundwater exploration. Chinese J. Geophys. (in Chinese), 2011, 54(11): 2973-2983.
[5]	Lubczynski M, Roy J. Hydrogeological interpretation and potential of the new magnetic resonance sounding (MRS) method. Journal of Hydrology, 2003, 283(1-4): 19-40.
[6]	Roy J, Lubczynski M. The magnetic resonance sounding technique and its use for groundwater investigations. Hydrogeology Journal, 2003, 11(4): 455-465.
[7]	Legchenko A, Valla P. A review of the basic principles for proton magnetic resonance sounding measurements. Journal of Applied Geophysics, 2002, 50(1-2): 3-19.
[8]	潘玉玲, 张昌达. 地面核磁共振找水理论和方法. 武汉: 中国地质大学出版社, 2000: 37. Pan Y L, Zhang C D. The Theory and Method of SNMR (in Chinese). Wuhan: China University of Geosciences Press, 2000: 37.
[9]	王应吉, 林君, 荣亮亮等. 地面核磁共振找水仪放大器设计. 仪器仪表学报, 2008, 29(8): 1627-1632. Wang Y J, Lin J, Rong L L, et al. Amplifier design of surface nuclear magnetic resonance instrument for underground water investigation. Chinese Journal of Scientific Instrument (in Chinese), 2008, 29(8): 1627-1632.
[10]	于景邨. 矿井瞬变电磁法勘探. 徐州: 中国矿业大学出版社, 2007: 5-8. Yu J C. The Detection of Mine Transient Electromagnetic Method (in Chinese). Xuzhou: China University of Mining and Technology Press, 2007: 5-8.
[11]	李振宇, 李俊丽, 潘玉玲. 地面核磁共振找水方法综述. 勘探地球物理进展, 2002, 25(6): 55-58. Li Z Y, Li J L, Pan Y L. Summary of groundwater detection with surface nuclear magnetic resonance method. Progress in Exploration Geophysics (in Chinese), 2002, 25(6): 55-58.
[12]	翁爱华, 李舟波, 王雪秋. 层状导电介质中地面核磁共振响应特征理论研究. 地球物理学报, 2004, 47(1): 156-163. Weng A H, Li Z B, Wang X Q. A study on surface nuclear magnetic resonance over layered conductive earth. Chinese J. Geophys. (in Chinese), 2004, 47(1): 156-163.
[13]	林君. 核磁共振找水技术的研究现状与发展趋势. 地球物理学进展, 2010, 25(2): 681-691. Lin J. Situation and progress of nuclear magnetic resonance technique for groundwater investigations. Progress in Geophysics (in Chinese), 2010, 25(2): 681-691.
[14]	Walsh D O. Multi-channel surface NMR instrumentation and software for 1D/2D groundwater investigations. Journal of Applied Geophysics, 2008, 66(3-4): 140-150.
[15]	荣亮亮. 核磁共振多匝线圈找水技术研究. 长春: 吉林大学, 2009: 44. Rong L L. Study on multi-turn loop Magnetic Resonance Sounding (MRS) technique for underground water (in Chinese). Changchun: Jilin University, 2009: 44.
[16]	Greben J M, Meyer R, Kimmie Z. The underground application of Magnetic Resonance Soundings. Journal of Applied Geophysics, 2011, 75(2): 220-226.
[17]	Braun M, Hertrich M, Yaramanci U. Study on complex inversion of magnetic resonance sounding signals. Near Surface Geophysics, 2005, 3(3): 155-163.
[18]	Mueller-Petke M, Yaramanci U. QT inversion-Comprehensive use of the complete surface NMR data set. Geophysics, 2009, 75(4): WA199.
[19]	Girard J F, Boucher M, Legchenko A, et al. 2D magnetic resonance tomography applied to karstic conduit imaging. Journal of Applied Geophysics, 2007, 63(3-4): 103-116.
[20]	Legchenko A, Ezersky M, Girard J F, et al. Interpretation of magnetic resonance soundings in rocks with high electrical conductivity. Journal of Applied Geophysics, 2008, 66(3-4): 118-127.
[21]	Strehl S. Development of Strategies for Improved Filtering and Fitting of SNMR-Signals. Technical University of Berlin, Institute of Applied Geosciences, Department of Applied Geophysics Diplomarbeit, 2006.
[22]	陈希有. 电路理论基础. 北京: 高等教育出版社, 2010. Chen X Y. Fundamentals of Circuit Theory (in Chinese). Beijing: Higher Education Press, 2010.
[23]	李军峰, 李文杰. 航空电磁发射线圈自感系数的精确计算. 物探化探计算技术, 2007, 29(S1): 17-20. Li J F, Li W J. A calculation method of self-inductance of transmitting coil for AEM system. Computing Techniques for Geophysical and Geochemical Exploration (in Chinese), 2007, 29(S1): 17-20.

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