光子晶体的全新应用及其研究
摘要
本文主要研究光子带隙结构(Photonic Bandgap,简称PBG)在微带天线以及微波电路中的应用。全文叙述了PBG结构的发展状况及未来展望,并对微带天线,微波集成电路的设计和计算有比较详尽的介绍。
本文的主要工作是在了解和掌握微带天线和微波集成电路原理与设计的基础上对原有结构进行改进,利用光子晶体的特殊性质,达到不同的用途。在综合研究理论原理和文献资料的基础上提出和讨论了多种全新的PBG结构的天线和电路。
本文的研究方法主要是首先根据经典原理设计传统的天线和电路,再根据具体需要加入适当的PBG结构,使之达到我们所需要产生的效果。计算结果是由商业软件HFSS,IE3D仿真得到。
本文的主要成果是提出并验证了一种新型的PBG微带天线以及多种利用PBG结构制作的微带滤波器。
Photonic crystal is a newly developed research area.It is only ten year since it had been mentioned.Applying the photonic-band-gap(pbg) structure in the microwave and millimeter-wave field is a novel direction.In this thesis,we realize the pbg application in microstrip-antenna and microwave integrated circuit.
First,we introduce the foundational principle of microstrip antenna and circuit.Then,based on the principle,we structured conventional antenna and circuit and for different purpose,we install differently framed pbg structure into the antenna and circuit.In this thesis,we bring forward and testify a new type pbg microstrip antenna and some pbg microstrip filter.
All of the computing results are acquired by simulation.We use the commercial softeware HFSS and IE3D to do the job.And we validate the result by comparing the outcome with similar article.
本文的主要工作是在了解和掌握微带天线和微波集成电路原理与设计的基础上对原有结构进行改进,利用光子晶体的特殊性质,达到不同的用途。在综合研究理论原理和文献资料的基础上提出和讨论了多种全新的PBG结构的天线和电路。
本文的研究方法主要是首先根据经典原理设计传统的天线和电路,再根据具体需要加入适当的PBG结构,使之达到我们所需要产生的效果。计算结果是由商业软件HFSS,IE3D仿真得到。
本文的主要成果是提出并验证了一种新型的PBG微带天线以及多种利用PBG结构制作的微带滤波器。
Photonic crystal is a newly developed research area.It is only ten year since it had been mentioned.Applying the photonic-band-gap(pbg) structure in the microwave and millimeter-wave field is a novel direction.In this thesis,we realize the pbg application in microstrip-antenna and microwave integrated circuit.
First,we introduce the foundational principle of microstrip antenna and circuit.Then,based on the principle,we structured conventional antenna and circuit and for different purpose,we install differently framed pbg structure into the antenna and circuit.In this thesis,we bring forward and testify a new type pbg microstrip antenna and some pbg microstrip filter.
All of the computing results are acquired by simulation.We use the commercial softeware HFSS and IE3D to do the job.And we validate the result by comparing the outcome with similar article.
引文
(1) 欧阳征标,李景镇.光子晶体的研究进展.激光杂志,2000,Vol21,No.2:4~6
(2) 顾国昌,陈鸿.光子晶体简介.世界科学,1996年2期:23~24
(3) F.R. Yang, K.P. Ma, Y. Qian, A uniplanar compact photonic-bandgap (UC-PBG) structure and its applications for microwave circuits. IEEE Trans. Microwave Theory Tech., Aug. 1999 vol. 47: 1509~1514
(4) Kevin M. K. H. Leong, Andrew C. Guyette, Balasundaram Elamaran,et al.Coupling Suppression in Microstrip Lines Using a Bi-Periodically Perforated Ground Plane.IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2002 MAY,VOL. 12, NO. 5:169~171
(5) Yasushi Horii,Makoto Tsutsumi. Harmonic Control by Photonic Bandgap on Microstrip Patch Antenna IEEE Microwave and guided wave letters. January 1999 vol9,No1:13~15
(6) Young-Jin Park,Alexander Herschlein,Werner Wiesbeck. A Photonic Bandgap (PBG) Structure for Guiding and Suppressing Surface Waves in Millimeter-Wave Antennas. IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, OCTOBER 2001,VOL. 49, NO. 10:1854~1859
(7) Zhengwei Du, Ke Gong, Jeffrey S. Fu, Baoxin Gao,et al. Influence of a Metallic Enclosure on the S-Parameters of Microstrip Photonic Bandgap Structures. IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, MAY 2002, VOL. 44, NO. 2:324~328
(8) 陈慰宗,申影,忽满利等. 一维光子晶体的基本周期结构及其禁带特征. 光子学报, 2001年第 12期,第 30卷:1453~1456
(9) 欧阳征标,李景镇,张道中等. 多层光子晶体滤波器研究.光学学报, 2002年第1期,第22卷:79~84
(10) W. J. Chappell, M. P. Little, and L. P. B. Katehi, High isolation, planar filters using EBG substrates. IEEE Microwave Wireless Compon. Lett., June 2001, vol. 11:246~248
(11) Y. Qian, R. Coccioli, D. Sievenpiper, V. Radisic, E. Yablonovitch,et al.A microstrip patch antenna using novel photonic band-gap structures. Microwave J., Jan. 1999, vol. 42, no. 1:66~76
(12) T.J.Ellis G.M.Rcbciz ,MM-wave tapered slot antennas on micromachined photonic bandgap dielectrics [J] IEEE MTT-s Microwave symp,Dig.1996:1157~1160
(13) M.A.G.Laso,T.Lopetegi et.al Novel wideband photonic bandgap microstrip structuresMicrowave and optical technology letters. March 2000,vol.24.No.5: 357~360
(14) H.Y.David Yang,J.Wang,and R.Kim Fundamental artificial periodic substrate effects on printed circuit antennas . IEEE,MTT-s digest TH2C-4 1999: 1537~1539
(15) Marc Thevenot , et.al. Directive Photonic-Bandgap Antennas .IEEE transactions on microwave theory and techniques, November1999,vol47.No11:2115~2121
(16) Miguel A.G.Laso, et.al Multiple-frequency Tuned photonic bandgap microstrip structure .IEEE,MTT, June2000,vol10,No6:220~222
(17) 高葆新等 光子带隙结构材料与微波集成电路 2000‘全国第八届“微波集成电路与移动通信”学术年会论文集,长沙:2000:1~4
(18) 张国华,袁乃昌,付云起.光子带隙微带结构数值分析.2001,全国微波毫米波会议:104~106
(19) Yu Ji , et.al. Hight-Whispering Gallery Mode Dielectric Resonator Bandpass Filter With Microstrip Line Coupling and Photonic Bandgap Mode-Suppression . IEEE Microwave and guided wave letters, August2000,vol10.No8: 310~312
(20) Vesna Radisic , et.al .Broad-band power amplifier using dielectric photonic bandgap structure .IEEE,Microwave and guided wave letters .Jan 1998,vol.8,No.1: 13~14
(21) Win JN,Fink Y,Fan Sh Omnidirectional reflection from a one dimensional photonic crystal .OPTLETT .1998,23(20) :1573~1575
(22) 付云起 袁乃昌 ,用FDTD分析光晶带隙结构散射特性,电子学报,Dec 2001vol.29,No12:1729~1730
(23) 顾国昌,李宏强,陈洪涛等.一维光了晶体材料中的光学传输特性.光学学报,2000,20( 6):728~734
(24) 张拥华,仇欣杰,李宏强等.一维光子晶体研究进展.物理,2000年第10期,30卷:616~621
(25) 庞云波,高葆新.一种新型的光子带隙结构单元.微波学报, 2001年第2期,第17卷:77~80
(26) 张立辉,王岚,黄翔等. 光子晶体的能带结构及应用前景. 武汉教育学院学报, 2001年第6期,第20卷:58~61
(27) 夏辉. 一维类梳状光子晶休的带结构及缺陷模研究:[硕士学位论文].长沙: 湖南大学, 2001年10月
(28) 高葆新等.微波集成电路.1995:2~17
(29) I.J.鲍尔,P.布哈蒂亚.微带天线.1984:3~70
(30) 吴万春.集成固体微波电路:46~69
(31) 吕善伟.微波工程基础:154~161
(2) 顾国昌,陈鸿.光子晶体简介.世界科学,1996年2期:23~24
(3) F.R. Yang, K.P. Ma, Y. Qian, A uniplanar compact photonic-bandgap (UC-PBG) structure and its applications for microwave circuits. IEEE Trans. Microwave Theory Tech., Aug. 1999 vol. 47: 1509~1514
(4) Kevin M. K. H. Leong, Andrew C. Guyette, Balasundaram Elamaran,et al.Coupling Suppression in Microstrip Lines Using a Bi-Periodically Perforated Ground Plane.IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2002 MAY,VOL. 12, NO. 5:169~171
(5) Yasushi Horii,Makoto Tsutsumi. Harmonic Control by Photonic Bandgap on Microstrip Patch Antenna IEEE Microwave and guided wave letters. January 1999 vol9,No1:13~15
(6) Young-Jin Park,Alexander Herschlein,Werner Wiesbeck. A Photonic Bandgap (PBG) Structure for Guiding and Suppressing Surface Waves in Millimeter-Wave Antennas. IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, OCTOBER 2001,VOL. 49, NO. 10:1854~1859
(7) Zhengwei Du, Ke Gong, Jeffrey S. Fu, Baoxin Gao,et al. Influence of a Metallic Enclosure on the S-Parameters of Microstrip Photonic Bandgap Structures. IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, MAY 2002, VOL. 44, NO. 2:324~328
(8) 陈慰宗,申影,忽满利等. 一维光子晶体的基本周期结构及其禁带特征. 光子学报, 2001年第 12期,第 30卷:1453~1456
(9) 欧阳征标,李景镇,张道中等. 多层光子晶体滤波器研究.光学学报, 2002年第1期,第22卷:79~84
(10) W. J. Chappell, M. P. Little, and L. P. B. Katehi, High isolation, planar filters using EBG substrates. IEEE Microwave Wireless Compon. Lett., June 2001, vol. 11:246~248
(11) Y. Qian, R. Coccioli, D. Sievenpiper, V. Radisic, E. Yablonovitch,et al.A microstrip patch antenna using novel photonic band-gap structures. Microwave J., Jan. 1999, vol. 42, no. 1:66~76
(12) T.J.Ellis G.M.Rcbciz ,MM-wave tapered slot antennas on micromachined photonic bandgap dielectrics [J] IEEE MTT-s Microwave symp,Dig.1996:1157~1160
(13) M.A.G.Laso,T.Lopetegi et.al Novel wideband photonic bandgap microstrip structuresMicrowave and optical technology letters. March 2000,vol.24.No.5: 357~360
(14) H.Y.David Yang,J.Wang,and R.Kim Fundamental artificial periodic substrate effects on printed circuit antennas . IEEE,MTT-s digest TH2C-4 1999: 1537~1539
(15) Marc Thevenot , et.al. Directive Photonic-Bandgap Antennas .IEEE transactions on microwave theory and techniques, November1999,vol47.No11:2115~2121
(16) Miguel A.G.Laso, et.al Multiple-frequency Tuned photonic bandgap microstrip structure .IEEE,MTT, June2000,vol10,No6:220~222
(17) 高葆新等 光子带隙结构材料与微波集成电路 2000‘全国第八届“微波集成电路与移动通信”学术年会论文集,长沙:2000:1~4
(18) 张国华,袁乃昌,付云起.光子带隙微带结构数值分析.2001,全国微波毫米波会议:104~106
(19) Yu Ji , et.al. Hight-Whispering Gallery Mode Dielectric Resonator Bandpass Filter With Microstrip Line Coupling and Photonic Bandgap Mode-Suppression . IEEE Microwave and guided wave letters, August2000,vol10.No8: 310~312
(20) Vesna Radisic , et.al .Broad-band power amplifier using dielectric photonic bandgap structure .IEEE,Microwave and guided wave letters .Jan 1998,vol.8,No.1: 13~14
(21) Win JN,Fink Y,Fan Sh Omnidirectional reflection from a one dimensional photonic crystal .OPTLETT .1998,23(20) :1573~1575
(22) 付云起 袁乃昌 ,用FDTD分析光晶带隙结构散射特性,电子学报,Dec 2001vol.29,No12:1729~1730
(23) 顾国昌,李宏强,陈洪涛等.一维光了晶体材料中的光学传输特性.光学学报,2000,20( 6):728~734
(24) 张拥华,仇欣杰,李宏强等.一维光子晶体研究进展.物理,2000年第10期,30卷:616~621
(25) 庞云波,高葆新.一种新型的光子带隙结构单元.微波学报, 2001年第2期,第17卷:77~80
(26) 张立辉,王岚,黄翔等. 光子晶体的能带结构及应用前景. 武汉教育学院学报, 2001年第6期,第20卷:58~61
(27) 夏辉. 一维类梳状光子晶休的带结构及缺陷模研究:[硕士学位论文].长沙: 湖南大学, 2001年10月
(28) 高葆新等.微波集成电路.1995:2~17
(29) I.J.鲍尔,P.布哈蒂亚.微带天线.1984:3~70
(30) 吴万春.集成固体微波电路:46~69
(31) 吕善伟.微波工程基础:154~161
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