磁场光学成像及矢量场层析方法研究
摘要
地磁场测量在不但在科学探索、航空、航天、航海、国防军事等方面都有着重要的应用,也和人们的生产生活紧密地联系在一起,因此对地磁场的测量和研究的意义就显得更为重要。然而随着对地球磁场的应用和研究的深入,现有的地面磁测、航空磁测、海洋磁测、地磁台磁测等地球磁场测量方法已经暴露出一些不小的局限性。其中主要的原因是现有的测量方法所采用的测量仪器在每一时间只能针对它自己所在位置的磁场进行单点测量。
为了克服现有磁测方法的不足,探索新的地磁测量方法,本课题组提出了磁旋光成像地球磁场测量方法,借助于地面反射太阳光的偏振特性及地球大气层的磁旋光效应,在卫星高度测量偏振光穿越大气层后的旋光度,获取地球磁场信息并利用CT算法重建地磁场。这一测量方法具有测量速度快、显示直观等优点,适合作为一种地磁普查测量手段。
本论文基于磁旋光成像地球磁场测量方法,首先对磁场光学成像方法的可行性进行实验验证。设计了二维磁场光学成像方法,建立了成像光路系统、检偏系统、图像数据采集系统,采集了一系列包含磁场信息的灰度图像;建立了图像数据处理算法,编制相应的图像数据处理程序,用图像处理程序将成像元件采集到的图像数据进行处理,得到了磁场的二维图像。对实验得出的磁场二维图像的成像效果进行观察和分析,根据图像所包含噪声的特点进行相应的后处理,有效降低了图像中的噪声影响,突出了磁场作用效果,为后续图像处理提供了思路。
由磁光二维成像实验结果出发,分析实验系统的误差因素,并从两个角度加以改进。一方面设计出了新的改进方案,另一方面改进原有用于磁光偏转角度测量的倍频法,特别注意到,在磁光调制偏振测量方法中,如果用矩形波代替正弦波作为调制信号,能够提高检测精度,故而以矩形波为调制信号重新设计了磁场光学成像系统,有效地提高了磁光测试和成像的精度。
论文在仔细研究标量场CT和矢量场CT投影数据获取的区别的基础上,首先构造了模拟矢量分布图,对其分量作Radon变换和特定处理后获得模拟矢量场的Radon变换数据(即投影数据),随后以此为基础对解析重建算法和代数方程重建算法进行了比较,确认了解析方法在矢量场CT重建中的有效性和代数方法的重要性。
The geomagnetic field measurement is not only important in scientific exploration, aviation, spaceflight, navigation, national defense military, etc, but also closely linked with people's Production and living, this make measurement and study on the geomagnetic field even more important. However, with the deepening of the application and study of the earth's magnetic field, the existing geomagnetic field measurement measures, such as groumd survey, Aerial survey survey, Marine survey and geomagnetic station survey etc. have exposed some considerable limitations. The main reason is the measuring instrument adopted by the existing measurement methods can only made single point measurement on its own location each time.
In order to overcome the shortage of the existing geomagnetic field measurement method and explore new geomagnetic measurement method, we puts forward the magnetic rotation imaging method of the geomagnetic field. With the aid of the polarization characteristics of reflected sunlight and the magnetic rotation effect of the earth's atmosphere, this method attempt to measure rotation angle of polarized light after it pass through the atmosphere on satellite, and rebuild the the geomagnetic field by CT algorithm reconstruction of geomagnetic field. The merit of this measurement method such high speed and visualization etc. made it suitable for general survey of geomagnetic field.
This paper based on the magnetic rotation imaging method of the geomagnetic field. First, experimental research and analysis of two-dimensional magneto-optic imaging method is carried out. Establish imaging optical path system, polarization analyzing system, image data acquisition system, image data processing algorithms, and the corresponding image data processing program; Process image data collected by imaging element with the processing program to get two-dimensional image of the magnetic field; Evaluate the image and make post-processing accordingly.
Find error factors and try to recover them from two perspectives on the basis of experimental results of existing magneto-optic two-dimensional imaging. On one hand to design improvement project, and on the other to improve measuring method. Find that rectangle wave lead to a high accuracy then sine wave in frequency multiplication method test, and replace sine wave with rectangle wave as magneto-optic modulation signal in magneto optical test (imaging).
After having found out difference of CT projection between scalar field and vector field, vector field is structured by Computer simulation. After made direct Radon transform and process of its component of the vector field, the real Radon transform (projection data) of simulated vector field is obtained. Compare analytic reconstruction methods and algebraic reconstruction technique and have verified the validity of the the former and the importance of the latter in vector field CT reconstruction.
为了克服现有磁测方法的不足,探索新的地磁测量方法,本课题组提出了磁旋光成像地球磁场测量方法,借助于地面反射太阳光的偏振特性及地球大气层的磁旋光效应,在卫星高度测量偏振光穿越大气层后的旋光度,获取地球磁场信息并利用CT算法重建地磁场。这一测量方法具有测量速度快、显示直观等优点,适合作为一种地磁普查测量手段。
本论文基于磁旋光成像地球磁场测量方法,首先对磁场光学成像方法的可行性进行实验验证。设计了二维磁场光学成像方法,建立了成像光路系统、检偏系统、图像数据采集系统,采集了一系列包含磁场信息的灰度图像;建立了图像数据处理算法,编制相应的图像数据处理程序,用图像处理程序将成像元件采集到的图像数据进行处理,得到了磁场的二维图像。对实验得出的磁场二维图像的成像效果进行观察和分析,根据图像所包含噪声的特点进行相应的后处理,有效降低了图像中的噪声影响,突出了磁场作用效果,为后续图像处理提供了思路。
由磁光二维成像实验结果出发,分析实验系统的误差因素,并从两个角度加以改进。一方面设计出了新的改进方案,另一方面改进原有用于磁光偏转角度测量的倍频法,特别注意到,在磁光调制偏振测量方法中,如果用矩形波代替正弦波作为调制信号,能够提高检测精度,故而以矩形波为调制信号重新设计了磁场光学成像系统,有效地提高了磁光测试和成像的精度。
论文在仔细研究标量场CT和矢量场CT投影数据获取的区别的基础上,首先构造了模拟矢量分布图,对其分量作Radon变换和特定处理后获得模拟矢量场的Radon变换数据(即投影数据),随后以此为基础对解析重建算法和代数方程重建算法进行了比较,确认了解析方法在矢量场CT重建中的有效性和代数方法的重要性。
The geomagnetic field measurement is not only important in scientific exploration, aviation, spaceflight, navigation, national defense military, etc, but also closely linked with people's Production and living, this make measurement and study on the geomagnetic field even more important. However, with the deepening of the application and study of the earth's magnetic field, the existing geomagnetic field measurement measures, such as groumd survey, Aerial survey survey, Marine survey and geomagnetic station survey etc. have exposed some considerable limitations. The main reason is the measuring instrument adopted by the existing measurement methods can only made single point measurement on its own location each time.
In order to overcome the shortage of the existing geomagnetic field measurement method and explore new geomagnetic measurement method, we puts forward the magnetic rotation imaging method of the geomagnetic field. With the aid of the polarization characteristics of reflected sunlight and the magnetic rotation effect of the earth's atmosphere, this method attempt to measure rotation angle of polarized light after it pass through the atmosphere on satellite, and rebuild the the geomagnetic field by CT algorithm reconstruction of geomagnetic field. The merit of this measurement method such high speed and visualization etc. made it suitable for general survey of geomagnetic field.
This paper based on the magnetic rotation imaging method of the geomagnetic field. First, experimental research and analysis of two-dimensional magneto-optic imaging method is carried out. Establish imaging optical path system, polarization analyzing system, image data acquisition system, image data processing algorithms, and the corresponding image data processing program; Process image data collected by imaging element with the processing program to get two-dimensional image of the magnetic field; Evaluate the image and make post-processing accordingly.
Find error factors and try to recover them from two perspectives on the basis of experimental results of existing magneto-optic two-dimensional imaging. On one hand to design improvement project, and on the other to improve measuring method. Find that rectangle wave lead to a high accuracy then sine wave in frequency multiplication method test, and replace sine wave with rectangle wave as magneto-optic modulation signal in magneto optical test (imaging).
After having found out difference of CT projection between scalar field and vector field, vector field is structured by Computer simulation. After made direct Radon transform and process of its component of the vector field, the real Radon transform (projection data) of simulated vector field is obtained. Compare analytic reconstruction methods and algebraic reconstruction technique and have verified the validity of the the former and the importance of the latter in vector field CT reconstruction.
引文
[1]姜宁.偏振光技术的应用.物理通报,1999,6:47-48
[2]Kumar Rrun, Ghatak Ajoy, Polarization of light with optical fibers[M], Bellingham:SPIE,2011:xiii
[3]鲍丽颖.浅析偏振光的研究及应用.中国科技投资,2012,33:35
[4]章志呜,沈元华,陈惠芬.光学.高等教育出版社.1994:144-159
[5]刘明,朱莹莹.浅议偏振技术在3D液晶显示中的应用.通信与广播电视,2012,04:3643
[6]吴声,凌志华,黄锡氓.液晶显示器中偏振光的行为.液晶通讯,1995,3(12):230-241
[7]人民教育出版社.光的偏振及其应用.http://www.pep.com.cn/gzwl/jszx/tbjx/kb/xx3/xx34/st/201112/t20111213_108871 2.htm:2013-03-15
[8]刘新迎.蜜蜂的定向定位及其生产的应用.蜜蜂杂志,1990,06:13-14,16
[9]曹楠楠.应用于仿生导航的天空散射光的偏振特性研究[D].大连:大连理工大学,2008
[10]江云秋,高晓颖,蒋彭龙.基于偏振光的导航技术研究.现代防御技术,2011,39(6):67-70
[11]李欣,王桂强,偏振光照相显现镜面客体上的潜在指印,刑事技术,2007,1:7-8
[12]宁平,何旺,运用偏振光照相技术提取指纹尝试[J],刑事技术,2004(6):31-33
[13]陈忠.用偏振光与分色照相结合拍摄现场纺织品灰尘痕迹的探讨.广东公安科技.2009,95,2:18-20
[14]孟建国,王和明,常志新.司法图像技术[M].北京:警官教育出版社,1997
[15]欧英雷.光的偏振特性在机动车安全驾驶中的应用.物理与工程,2011,21(6):36-39
[16]王小京,朱玲.红外偏振光在物理治疗中的应用,中国医疗器械信息,2001,06:4-6,8
[17]牟淑贤,刘啸虎,张天才.眼科同视机中海丁格刷装置的质量控制.光学仪 器.2008,30(1):79-84
[18]周静,王选章,谢文广.磁光效应及其应用.现代物理知识.2005,17(5):45-47
[19]艾延宝,金永君,法拉第磁致旋光效应及应用,物理与工程,2002,12(.5):50,51,60.
[20]娄凤伟,郑绳楦,光学电流传感器的现状与发展,上海电器技术,2001,4:29—32.
[21]熊钢,磁光存储及其介质的研究,咸宁学院学报,2004,24(3):68,69,99.
[22]李佐宜,光磁混合存储是当前超高密度存储技术的研究方向,国际学术动态,2005,6:27.
[23]李小牛,磁场二维光学成像实验研究[D],西安:西北大学,2007
[24]马凤英,磁光效应在煤矿井下电流检测中的应用,煤矿机械,2006,27(9):181—183.
[25]程玉华,周肇飞,尹伯彪,磁光/涡流实时成像检测系统的研究,光学精密工程,2006,14(5):797—801.
[26]翟佳,周肇飞,程玉华,VFW图像获取技术在磁光/涡流成像系统中的应用机械,2006,10:55,56,62.
[27]Cao Hanjun, Qiao Yanli, Yang Weifeng, et al., Characterization and Analysis of the Polarization Images in Remote Sensing[J], Chines journal of quantum electronics,2002,19(4):373-378.
[28]赵冬至,海洋环境污染与灾害卫星遥感业务化监测系统研究[J],遥感信息,1999,(2):22-24.
[29]赵丽丽,赵云升,杜嘉,王宁,不同污染水体的多角度偏振光谱研究,水科学进展,2007,18(1):118-122
[30]刘文星编译,地球是一块大磁铁,科学普及出版社,1984:71
[31]李小俊.磁旋光成像地球磁场测量方法[R].西安:西北大学博士后流动站,2008
[32]J. R. Angel, E. F. Borra, and J. D. Landstreet, The magnetic fields of white dwarfs, Astrophys. J., Suppl. Ser.45(3),457-474(1981).
[33]T. A. T. Spoelstra, The galactic magnetic field, Sov. Phys. Usp.20(4), 336-342(1977).
[34]P. P. Kronberg, Galactic and extragalactic magnetic fields in the local universe: An overview, AIP Conf. Proc.433(1),196-211(1998).
[35]Pidding, J H., Cosmic Electrodynamics,3(1972):129
[36]Brecher, K., External Galaxy and Quasi-Steller Objects. (Ed. Evans D. E).1972: 520
[37]B. Dennison, On intracluster Faraday rotation. Ⅰ. Observations, Astron. J.84(6), 725-729(1979)
[38]P. D. Bernardis, S. Masi, F. Melchiorri, and G. Moreno, Extragalactic infrared backgrounds, polarization, and universal magnetic field, Astrophys. J. Lett.1989. 340(2), L45-L48.
[39]李国栋编著,当代磁学,中国科学技术大学出版社,1999:309
[40]Reinhardt,M. et al.,Astrophys.Lett.1979.7:101
[41]廖延彪.成像光学导论.北京:清华大学出版社,2008:208-233
[42]郑光昭.光信息科学与技术应用(M).北京:电子工业出版社,2002:190-208。
[43]合肥市第一人民医院,CT中的基本知识,http://www.doc88.com/p-97841617450.html,2013-03-15
[44]冯大军,颜雨春,刘斌,杨飞等.64排螺旋CT灌注诊断涎腺肿瘤的临床应用研究.实用口腔医学杂志.2007.2:224-227
[45]姜智鹏,赵伟,屈凯峰.磁场测量技术的发展及其应用.电测与仪表,2008,45(508):1-5,10
[46]李大明.磁场的测量[M].北京:机械工业出版社,1993
[47]李大明.磁场测量讲座[R].电测与仪表,1989,(10):21,41-47
[48]郭舒生.霍尔传感器的研究及其电路设计[D].合肥工业大学,2006
[49]白慧.基于薄膜磁阻传感器的弱磁测量系统的设计[J].仪表技术与传感器.2006,10:30-34
[50]赵燕平,由臣,宁保群.巨磁电阻材料及应用[J].天津理工学院学报.2003,3:50-53
[51]董延峰,王治,丁燕红.巨磁阻抗效应及其应用[J].天津理工学院学报,2002.4:74-76,95
[52]涂有瑞.半导体磁场传感器过去和未来[J].传感器世界.2003.11:1-9
[53]周晓军,刘永智.光纤微弱磁场传感技术研究进展[J].半导体光电,1997.1:1-5
[54]徐文耀.地磁学[M].北京:地震出版社,2003:1-220
[55]李小俊,白晋涛,李永安等.磁旋光成像地球磁场测量方法[J].自然科学进展,2007,17(9):1168-1173
[56]Li Xiaojun, Bai Jintao, Li Yongan, et al. Magnetic rotation imaging method to measure the geomagnetic field [J]. Progress in Natural Science,2008.18(1): 21-26
[57]李林.矢量场和磁场层析成像方法的建立及其计算机模拟[D].西安:西北大学,2009
[58]李涛,陈骏逸,陆申龙.高斯法测量地磁场水平分量的改进[J].物理与工程.2006.16(2):26-28
[59]赵彦.促进科学研究和社会发展的有力工具.科学时报,2001-07-19
[60]扬诺夫斯基B.M..地磁学[M].刘洪学.北京:地质出版社,1982:24-31
[61]倪永生.地磁学简明教程[M].北京:地震出版社,1990:263-322
[62]安振昌.地球基本磁场[M].北京:地震地磁观测与研究,1982:36-43
[63]刘文星.地球是一块大磁铁[M].北京:科学普及出版社,1984:64-93
[64]廖延彪.偏振光学[M].北京:科学出版社,2003:19-40
[65]王益军,基于偏振光法拉第磁光效应的磁场成像研究[D],西安:西北大学,2006
[66]维基百科.菲涅耳方程.http://zh. wikipedia. org/wiki/%E8%8F%B2%E6%B6%85%E8%80%B3%E6%96%B9 %E7%A8%8B.2013-03-16
[67]谢敬辉,赵达尊,阎吉祥.物理光学教程[M].北京:北京大学出版社,2005:326-330
[68]玻恩,沃耳夫.光学原理[M].第五版.杨葭荪.北京:电子工业出版社,2006:58—71
[69]Max Born, Emil Wolf. Principles of Optics[M].7th. Cambridge:Cambridge University Press,1999:334 [70]钟锡华.现代光学基础[M].北京:北京大学出版社,2003:118—126
[71]谢敬辉,赵达尊,阎吉祥.物理光学教程[M].北京:北京大学出版社,2005:32-41
[72]Hecht E., Zajac A. Optics. Menlo Park. California:Addison-Wesley Publishing Company:1976
[73]Lipson S G., Lipson H. Optical physics.3ed. New york:Cambridge University Press:1981
[74]Jekins F A., White H. E. Fundamentals of optics.4ed. London:McGraw Hill Inc: 1979
[75]张之翔著,光的偏振,高等教育出版社,1985,1-16
[76]李修,陈秀艳,李小俊.典型地表反射光偏振特性实验研究.光子学报.2005,34(Z2):44-46
[77]刘公强,乐志强,沈德芳.磁光学.上海:上海科学技术出版社,2001,30-52、227-231
[78]钱骥.空间技术基础.北京:科学出版社,1986,20-27、57-81
[79]陈秀艳,李修,李小俊.液体介质磁致旋光效应实验研究.光子学报,2005,34(Z2):17-19
[80]吴思诚,王祖铨.近代物理实验.第二版.北京:北京大学出版社,1995:228-236
[81]上海交通大学.法拉第效应.http://pec.sjtu.edu.cn/ols/DocumentLib/recent/072011509/072011509_slides.pdf. 2013-03-30
[82]张天喆,董有尔.近代物理实验[M].北京:科学出版社,2004:214-220
[83]易明.光学[M].北京:高等教育出版社,1999:214
[84]谢敬辉,赵达尊,阎吉祥.物理光学教程[M].北京:北京大学出版社,2005:343-345
[85]廖延彪.偏振光学[M].北京:科学出版社,2003:231-232
[86]李永安,李小俊,李书婷等.白晋涛.磁光调制的模拟与特性分析.西北大学学报(自然科学版).2007,37(5):719-723
[87]李永安,李小俊,白晋涛.正弦波与方波磁光调制的比较分析.光子学报,2007,36(Sup):192-197
[88]冈萨雷斯.数字图象处理(Matlab版).阮秋奇等.北京:电子工业出版社,2005:46-102
[89]章霄,董艳雪,赵文娟等.数字图像处理技术.北京:冶金工业出版社,出版时间:2005:122-147,175-216
[90]金伟,齐世清,王建国.现代检测技术[M].北京:北京邮电大学出版社.2006:194-216
[91]陈曼龙.误差补偿技术及应用特点.计量测量与检定.2008.18(6:):1-3
[92]刘公强,刘湘林.磁光调制和法拉第旋转测量.光学学报,1984,4(7):588-592
[93]程守洙,江之永.普通物理学(第一册)[M].北京:高等教育出版社:1982:76-179
[94]李永安.传统光纤及光子晶体光纤偏振与磁光特性研究.西安:西北大学,2007
[95]李小俊,李永安,汪源源.基于矩形波信号的磁光调制偏振测量方法.光学学报.2008,28(8):1533-1537
[96]高上凯.医学成像系统.北京:清华大学出版社,2000:43-69
[97]王学民,沈克涵.医学成像系统.北京:清华大学出版社,2006:191-236
[98]王之江,伍树东.成像光学[M].北京:科学出版社,1991:295-336
[99]Bernd Jahne. Digital Image Processing[M].5Ed. Berlin:Springer,2002:224-231
[100]Anil K. Jain. Fundamentals of Digital Image Processing. Englewood Cliffs: Prentice Hall.1989:431-475
[101]KakAvinash C. Principles of Computerized Tomographic Imaging. New York: IEEE Press.1987:5-117
[102]Hsieh J. Computed Tomography Principles, Design, Artifacts, and Recent Advances.2nd ed. Bellingham, Washington:SPIE,2009:23-142
[103]徐飞,施晓红.MATLAB应用图像处理.西安:西安电子科技大学出版社,2002:74-78
[104]贺兴华,周媛媛,王继阳等.MATLAB7.x图像处理.人民邮电出版社,2006:76-83
[105]黄作英,阙沛文.基于MATLAB的电磁场数值分析.计算机工程与应用.2004.36:196-202
[106]何红雨.电磁场数值计算法与MATLAB实现[M].武汉:华中科技大学出版社,2004:93-151
[107]mathworks. Radon transform. http://www.mathworks.cn/cn/help/images/ref/radon.html. 2013-03-08
[108]Timothy G. Feeman. The Mathematics of Medical Imaging A Beginner's Guide. New York:Springer,2009:11-115
[109]黄同愿,瞿中,吴红艳.不完全投影数据的ICT图像重建算法.计算机科学,2006,33(2):246-247,256
[110]F. Natterer, Frank Wubbeling. Mathematical methods in image reconstruction. Philadelphia:SIAM,2011:81-137
[111]Gabor T. Herman. Fundamentals of Computerized Tomography Image Reconstruction from Projections. London:Springer,2009:101-216
[112]F. Natterer. The Mathematics of Computerized Tomography. Philadelphia: SIAM,2001:102-155
[113]现代教学仪器.CT图像的重建方法.http://basic.shsmu.edu.cn/jpkc/swyxgc/yxyqyl/web/web/page/chapterD/indexD 33.htm.2013-2-10
[114]Nasser M. Abbasi. The application of Fourier analysis in solving the Computed Tomography (CT) inverse problem. https://www.imt.liu.se/edu/courses/TBMT02/ct/note_on_radon.pdf.2012-07-03
[115]庄天戈.CT原理与算法.上海.上海交通大学出版社,1992:22-99
[116]张顺利,李卫斌,唐高峰.滤波反投影图像重建算法研究.咸阳师范学院学报.2008.23(4):47-49
[117]MathWorks. Iradon. http://www.mathworks.cn/cn/help/images/ref/iradon.html. 2013-3-13
[118]Gengsheng Lawrence Zeng. Medical Image Reconstruction A Conceptual Tutorial. Beijing:Higher Education Press,2009:43
[2]Kumar Rrun, Ghatak Ajoy, Polarization of light with optical fibers[M], Bellingham:SPIE,2011:xiii
[3]鲍丽颖.浅析偏振光的研究及应用.中国科技投资,2012,33:35
[4]章志呜,沈元华,陈惠芬.光学.高等教育出版社.1994:144-159
[5]刘明,朱莹莹.浅议偏振技术在3D液晶显示中的应用.通信与广播电视,2012,04:3643
[6]吴声,凌志华,黄锡氓.液晶显示器中偏振光的行为.液晶通讯,1995,3(12):230-241
[7]人民教育出版社.光的偏振及其应用.http://www.pep.com.cn/gzwl/jszx/tbjx/kb/xx3/xx34/st/201112/t20111213_108871 2.htm:2013-03-15
[8]刘新迎.蜜蜂的定向定位及其生产的应用.蜜蜂杂志,1990,06:13-14,16
[9]曹楠楠.应用于仿生导航的天空散射光的偏振特性研究[D].大连:大连理工大学,2008
[10]江云秋,高晓颖,蒋彭龙.基于偏振光的导航技术研究.现代防御技术,2011,39(6):67-70
[11]李欣,王桂强,偏振光照相显现镜面客体上的潜在指印,刑事技术,2007,1:7-8
[12]宁平,何旺,运用偏振光照相技术提取指纹尝试[J],刑事技术,2004(6):31-33
[13]陈忠.用偏振光与分色照相结合拍摄现场纺织品灰尘痕迹的探讨.广东公安科技.2009,95,2:18-20
[14]孟建国,王和明,常志新.司法图像技术[M].北京:警官教育出版社,1997
[15]欧英雷.光的偏振特性在机动车安全驾驶中的应用.物理与工程,2011,21(6):36-39
[16]王小京,朱玲.红外偏振光在物理治疗中的应用,中国医疗器械信息,2001,06:4-6,8
[17]牟淑贤,刘啸虎,张天才.眼科同视机中海丁格刷装置的质量控制.光学仪 器.2008,30(1):79-84
[18]周静,王选章,谢文广.磁光效应及其应用.现代物理知识.2005,17(5):45-47
[19]艾延宝,金永君,法拉第磁致旋光效应及应用,物理与工程,2002,12(.5):50,51,60.
[20]娄凤伟,郑绳楦,光学电流传感器的现状与发展,上海电器技术,2001,4:29—32.
[21]熊钢,磁光存储及其介质的研究,咸宁学院学报,2004,24(3):68,69,99.
[22]李佐宜,光磁混合存储是当前超高密度存储技术的研究方向,国际学术动态,2005,6:27.
[23]李小牛,磁场二维光学成像实验研究[D],西安:西北大学,2007
[24]马凤英,磁光效应在煤矿井下电流检测中的应用,煤矿机械,2006,27(9):181—183.
[25]程玉华,周肇飞,尹伯彪,磁光/涡流实时成像检测系统的研究,光学精密工程,2006,14(5):797—801.
[26]翟佳,周肇飞,程玉华,VFW图像获取技术在磁光/涡流成像系统中的应用机械,2006,10:55,56,62.
[27]Cao Hanjun, Qiao Yanli, Yang Weifeng, et al., Characterization and Analysis of the Polarization Images in Remote Sensing[J], Chines journal of quantum electronics,2002,19(4):373-378.
[28]赵冬至,海洋环境污染与灾害卫星遥感业务化监测系统研究[J],遥感信息,1999,(2):22-24.
[29]赵丽丽,赵云升,杜嘉,王宁,不同污染水体的多角度偏振光谱研究,水科学进展,2007,18(1):118-122
[30]刘文星编译,地球是一块大磁铁,科学普及出版社,1984:71
[31]李小俊.磁旋光成像地球磁场测量方法[R].西安:西北大学博士后流动站,2008
[32]J. R. Angel, E. F. Borra, and J. D. Landstreet, The magnetic fields of white dwarfs, Astrophys. J., Suppl. Ser.45(3),457-474(1981).
[33]T. A. T. Spoelstra, The galactic magnetic field, Sov. Phys. Usp.20(4), 336-342(1977).
[34]P. P. Kronberg, Galactic and extragalactic magnetic fields in the local universe: An overview, AIP Conf. Proc.433(1),196-211(1998).
[35]Pidding, J H., Cosmic Electrodynamics,3(1972):129
[36]Brecher, K., External Galaxy and Quasi-Steller Objects. (Ed. Evans D. E).1972: 520
[37]B. Dennison, On intracluster Faraday rotation. Ⅰ. Observations, Astron. J.84(6), 725-729(1979)
[38]P. D. Bernardis, S. Masi, F. Melchiorri, and G. Moreno, Extragalactic infrared backgrounds, polarization, and universal magnetic field, Astrophys. J. Lett.1989. 340(2), L45-L48.
[39]李国栋编著,当代磁学,中国科学技术大学出版社,1999:309
[40]Reinhardt,M. et al.,Astrophys.Lett.1979.7:101
[41]廖延彪.成像光学导论.北京:清华大学出版社,2008:208-233
[42]郑光昭.光信息科学与技术应用(M).北京:电子工业出版社,2002:190-208。
[43]合肥市第一人民医院,CT中的基本知识,http://www.doc88.com/p-97841617450.html,2013-03-15
[44]冯大军,颜雨春,刘斌,杨飞等.64排螺旋CT灌注诊断涎腺肿瘤的临床应用研究.实用口腔医学杂志.2007.2:224-227
[45]姜智鹏,赵伟,屈凯峰.磁场测量技术的发展及其应用.电测与仪表,2008,45(508):1-5,10
[46]李大明.磁场的测量[M].北京:机械工业出版社,1993
[47]李大明.磁场测量讲座[R].电测与仪表,1989,(10):21,41-47
[48]郭舒生.霍尔传感器的研究及其电路设计[D].合肥工业大学,2006
[49]白慧.基于薄膜磁阻传感器的弱磁测量系统的设计[J].仪表技术与传感器.2006,10:30-34
[50]赵燕平,由臣,宁保群.巨磁电阻材料及应用[J].天津理工学院学报.2003,3:50-53
[51]董延峰,王治,丁燕红.巨磁阻抗效应及其应用[J].天津理工学院学报,2002.4:74-76,95
[52]涂有瑞.半导体磁场传感器过去和未来[J].传感器世界.2003.11:1-9
[53]周晓军,刘永智.光纤微弱磁场传感技术研究进展[J].半导体光电,1997.1:1-5
[54]徐文耀.地磁学[M].北京:地震出版社,2003:1-220
[55]李小俊,白晋涛,李永安等.磁旋光成像地球磁场测量方法[J].自然科学进展,2007,17(9):1168-1173
[56]Li Xiaojun, Bai Jintao, Li Yongan, et al. Magnetic rotation imaging method to measure the geomagnetic field [J]. Progress in Natural Science,2008.18(1): 21-26
[57]李林.矢量场和磁场层析成像方法的建立及其计算机模拟[D].西安:西北大学,2009
[58]李涛,陈骏逸,陆申龙.高斯法测量地磁场水平分量的改进[J].物理与工程.2006.16(2):26-28
[59]赵彦.促进科学研究和社会发展的有力工具.科学时报,2001-07-19
[60]扬诺夫斯基B.M..地磁学[M].刘洪学.北京:地质出版社,1982:24-31
[61]倪永生.地磁学简明教程[M].北京:地震出版社,1990:263-322
[62]安振昌.地球基本磁场[M].北京:地震地磁观测与研究,1982:36-43
[63]刘文星.地球是一块大磁铁[M].北京:科学普及出版社,1984:64-93
[64]廖延彪.偏振光学[M].北京:科学出版社,2003:19-40
[65]王益军,基于偏振光法拉第磁光效应的磁场成像研究[D],西安:西北大学,2006
[66]维基百科.菲涅耳方程.http://zh. wikipedia. org/wiki/%E8%8F%B2%E6%B6%85%E8%80%B3%E6%96%B9 %E7%A8%8B.2013-03-16
[67]谢敬辉,赵达尊,阎吉祥.物理光学教程[M].北京:北京大学出版社,2005:326-330
[68]玻恩,沃耳夫.光学原理[M].第五版.杨葭荪.北京:电子工业出版社,2006:58—71
[69]Max Born, Emil Wolf. Principles of Optics[M].7th. Cambridge:Cambridge University Press,1999:334 [70]钟锡华.现代光学基础[M].北京:北京大学出版社,2003:118—126
[71]谢敬辉,赵达尊,阎吉祥.物理光学教程[M].北京:北京大学出版社,2005:32-41
[72]Hecht E., Zajac A. Optics. Menlo Park. California:Addison-Wesley Publishing Company:1976
[73]Lipson S G., Lipson H. Optical physics.3ed. New york:Cambridge University Press:1981
[74]Jekins F A., White H. E. Fundamentals of optics.4ed. London:McGraw Hill Inc: 1979
[75]张之翔著,光的偏振,高等教育出版社,1985,1-16
[76]李修,陈秀艳,李小俊.典型地表反射光偏振特性实验研究.光子学报.2005,34(Z2):44-46
[77]刘公强,乐志强,沈德芳.磁光学.上海:上海科学技术出版社,2001,30-52、227-231
[78]钱骥.空间技术基础.北京:科学出版社,1986,20-27、57-81
[79]陈秀艳,李修,李小俊.液体介质磁致旋光效应实验研究.光子学报,2005,34(Z2):17-19
[80]吴思诚,王祖铨.近代物理实验.第二版.北京:北京大学出版社,1995:228-236
[81]上海交通大学.法拉第效应.http://pec.sjtu.edu.cn/ols/DocumentLib/recent/072011509/072011509_slides.pdf. 2013-03-30
[82]张天喆,董有尔.近代物理实验[M].北京:科学出版社,2004:214-220
[83]易明.光学[M].北京:高等教育出版社,1999:214
[84]谢敬辉,赵达尊,阎吉祥.物理光学教程[M].北京:北京大学出版社,2005:343-345
[85]廖延彪.偏振光学[M].北京:科学出版社,2003:231-232
[86]李永安,李小俊,李书婷等.白晋涛.磁光调制的模拟与特性分析.西北大学学报(自然科学版).2007,37(5):719-723
[87]李永安,李小俊,白晋涛.正弦波与方波磁光调制的比较分析.光子学报,2007,36(Sup):192-197
[88]冈萨雷斯.数字图象处理(Matlab版).阮秋奇等.北京:电子工业出版社,2005:46-102
[89]章霄,董艳雪,赵文娟等.数字图像处理技术.北京:冶金工业出版社,出版时间:2005:122-147,175-216
[90]金伟,齐世清,王建国.现代检测技术[M].北京:北京邮电大学出版社.2006:194-216
[91]陈曼龙.误差补偿技术及应用特点.计量测量与检定.2008.18(6:):1-3
[92]刘公强,刘湘林.磁光调制和法拉第旋转测量.光学学报,1984,4(7):588-592
[93]程守洙,江之永.普通物理学(第一册)[M].北京:高等教育出版社:1982:76-179
[94]李永安.传统光纤及光子晶体光纤偏振与磁光特性研究.西安:西北大学,2007
[95]李小俊,李永安,汪源源.基于矩形波信号的磁光调制偏振测量方法.光学学报.2008,28(8):1533-1537
[96]高上凯.医学成像系统.北京:清华大学出版社,2000:43-69
[97]王学民,沈克涵.医学成像系统.北京:清华大学出版社,2006:191-236
[98]王之江,伍树东.成像光学[M].北京:科学出版社,1991:295-336
[99]Bernd Jahne. Digital Image Processing[M].5Ed. Berlin:Springer,2002:224-231
[100]Anil K. Jain. Fundamentals of Digital Image Processing. Englewood Cliffs: Prentice Hall.1989:431-475
[101]KakAvinash C. Principles of Computerized Tomographic Imaging. New York: IEEE Press.1987:5-117
[102]Hsieh J. Computed Tomography Principles, Design, Artifacts, and Recent Advances.2nd ed. Bellingham, Washington:SPIE,2009:23-142
[103]徐飞,施晓红.MATLAB应用图像处理.西安:西安电子科技大学出版社,2002:74-78
[104]贺兴华,周媛媛,王继阳等.MATLAB7.x图像处理.人民邮电出版社,2006:76-83
[105]黄作英,阙沛文.基于MATLAB的电磁场数值分析.计算机工程与应用.2004.36:196-202
[106]何红雨.电磁场数值计算法与MATLAB实现[M].武汉:华中科技大学出版社,2004:93-151
[107]mathworks. Radon transform. http://www.mathworks.cn/cn/help/images/ref/radon.html. 2013-03-08
[108]Timothy G. Feeman. The Mathematics of Medical Imaging A Beginner's Guide. New York:Springer,2009:11-115
[109]黄同愿,瞿中,吴红艳.不完全投影数据的ICT图像重建算法.计算机科学,2006,33(2):246-247,256
[110]F. Natterer, Frank Wubbeling. Mathematical methods in image reconstruction. Philadelphia:SIAM,2011:81-137
[111]Gabor T. Herman. Fundamentals of Computerized Tomography Image Reconstruction from Projections. London:Springer,2009:101-216
[112]F. Natterer. The Mathematics of Computerized Tomography. Philadelphia: SIAM,2001:102-155
[113]现代教学仪器.CT图像的重建方法.http://basic.shsmu.edu.cn/jpkc/swyxgc/yxyqyl/web/web/page/chapterD/indexD 33.htm.2013-2-10
[114]Nasser M. Abbasi. The application of Fourier analysis in solving the Computed Tomography (CT) inverse problem. https://www.imt.liu.se/edu/courses/TBMT02/ct/note_on_radon.pdf.2012-07-03
[115]庄天戈.CT原理与算法.上海.上海交通大学出版社,1992:22-99
[116]张顺利,李卫斌,唐高峰.滤波反投影图像重建算法研究.咸阳师范学院学报.2008.23(4):47-49
[117]MathWorks. Iradon. http://www.mathworks.cn/cn/help/images/ref/iradon.html. 2013-3-13
[118]Gengsheng Lawrence Zeng. Medical Image Reconstruction A Conceptual Tutorial. Beijing:Higher Education Press,2009:43