发明专利:
发明公开:
[1]欧阳征标, 德·泰雅吉. 基于红外光与光子晶体共振腔的太赫兹波产生装置及方法[P]. 广东省: CN117498122A, 2024-02-02.
[2]王琼, 郑耀贤, 欧阳征标, 林密. 一种基于渐变齿轮柱阵列的超带宽太赫兹石墨烯吸收器[P]. 广东省: CN116345184A, 2023-06-27.
[3]王琼, 郑耀贤, 欧阳征标, 林密. 一种具有异质结构耦合腔的多层石墨烯宽带吸收器[P]. 广东省: CN116315728A, 2023-06-23.
[4]申素玲, 欧阳征标, 刘强, 张驰. 基于太赫兹时域光谱技术测量钙钛矿金属氧化物粉末的氧离子电导率和活化能的方法及应用[P]. 广东省: CN115993341A, 2023-04-21.
[5]王琼, 欧阳征标, 林密. 一种带双层耦合介质环周期阵列的太赫兹石墨烯吸收器[P]. 广东省: CN113422211A, 2021-09-21.
[6]林密, 欧阳征标, 傅立新, 王琼. 基于磁光材料的与偏振无关的光子晶体环行器[P]. 广东省: CN112526775A, 2021-03-19.
[7]黄海涛, 欧阳征标, 黄粤龙, 林密. 一种基于高压气体膨胀降温激发的太赫兹激光器[P]. 广东省: CN111431016A, 2020-07-17.
[8]黄粤龙, 欧阳征标, 黄海涛, 陶科玉. 基于单个自动调温低温热源的太赫兹激光器[P]. 广东省: CN111431017A, 2020-07-17.
[9]欧阳征标, 王琼, 黄海涛, 肖汉文. 一种基于双恒温热源设备的太赫兹激光器[P]. 广东省: CN111431018A, 2020-07-17.
[10]欧阳征标, 黄粤龙, 黄海涛. 基于光激发的太赫兹激光器[P]. 广东省: CN111431028A, 2020-07-17.
[11]欧阳征标, 许桂雯, 黄海涛, 查海平, 黄粤龙. 基于微波激发的太赫兹激光器[P]. 广东省: CN111403994A, 2020-07-10.
[12]欧阳征标, 郑耀贤, 黄粤龙, 黄海涛. 一种微生物和生物机体内含物的太赫兹检测方法及系统[P]. 广东省: CN111366556A, 2020-07-03.
[13]欧阳征标, 黄海涛, 郑耀贤, 肖汉文. 基于单个高温热源的太赫兹激光器[P]. 广东省: CN111029889A, 2020-04-17.
[14]欧阳征标, 黄粤龙, 肖汉文, 黄海涛. 基于互补矩形脉冲双频光激发的太赫兹激光器[P]. 广东省: CN111009816A, 2020-04-14.
[15]欧阳征标, 黄海涛, 黄粤龙. 基于电磁感应热激发的太赫兹激光器[P]. 广东省: CN111009817A, 2020-04-14.
[16]刘强, 张驰, 欧阳征标. 基于聚合物布洛赫表面波的太赫兹气体传感器[P]. 广东省: CN110763653A, 2020-02-07.
[17]欧阳征标, 安银冰. 一种光子晶体波导正交分裂模干涉FANO共振结构[P]. 广东省: CN109669239A, 2019-04-23.
[18]欧阳征标, 安银冰, 吴国城. 一种光子晶体波导六极分裂模干涉FANO共振结构[P]. 广东省: CN109669240A, 2019-04-23.
[19]欧阳征标, 安银冰. 一种光子晶体波导四极分裂模干涉FANO共振结构[P]. 广东省: CN109669241A, 2019-04-23.
[20]欧阳征标, 安银冰, 孙一翎. 一种光子晶体波导对角模干涉FANO共振结构[P]. 广东省: CN109669242A, 2019-04-23.
[21]欧阳征标, 梁丽容, 尹嘉峻, 凡俊兴. 一种法诺共振MDM超表面高灵敏度背景折射率传感器[P]. 广东省: CN109307659A, 2019-02-05.
[22]欧阳征标, 梁丽容, 尹嘉峻, 凡俊兴. 一种法诺共振MHM超表面高灵敏度背景折射率传感器[P]. 广东省: CN109239013A, 2019-01-18.
[23]欧阳征标, 肖栋. 一种用于红外多波段相干光吸收的超表面[P]. 广东: CN107797163A, 2018-03-13.
[24]王琼, 欧阳征标. 可实现Fano共振的多波长可调型纳米传感器[P]. 广东: CN107478606A, 2017-12-15.
[25]王琼, 欧阳征标. 可实现Fano共振的扇形纳米传感器[P]. 广东: CN107478249A, 2017-12-15.
[26]欧阳征标, 郑耀贤. 无泄漏低损型磁光薄膜磁表面快模任意角单向拐弯波导[P]. 广东: CN106405729A, 2017-02-15.
[27]欧阳征标, 郑耀贤. 无泄漏磁光薄膜磁表面快波方向可控光二极管[P]. 广东: CN106405885A, 2017-02-15.
[28]欧阳征标, 郑耀贤. 无泄漏低损型磁光空隙磁表面快模任意角单向拐弯波导[P]. 广东: CN106291811A, 2017-01-04.
[29]欧阳征标, 郑耀贤, 艾月霞. 低损磁光薄膜磁表面快模任意方向可控单向拐弯波导[P]. 广东: CN106291812A, 2017-01-04.
[30]欧阳征标, 郑耀贤, 艾月霞. 低损型磁光空隙磁表面快模任意角单向拐弯波导[P]. 广东: CN106249352A, 2016-12-21.
[31]欧阳征标, 郑耀贤, 王琼. 磁光薄膜磁表面快波方向可控光二极管[P]. 广东: CN106249443A, 2016-12-21.
[32]欧阳征标, 郑耀贤. 无泄漏磁光材料空隙波导磁表面快波方向可控光二极管[P]. 广东: CN106249444A, 2016-12-21.
[33]欧阳征标, 郑耀贤, 艾月霞. 低损型磁光薄膜磁表面快模任意角单向拐弯波导[P]. 广东: CN106249445A, 2016-12-21.
[34]欧阳征标, 郑耀贤, 王琼. 磁光材料空隙波导磁表面快波光二极管[P]. 广东: CN106226924A, 2016-12-14.
[35]欧阳征标, 郑耀贤. 无泄漏磁光薄膜磁表面快波光二极管[P]. 广东: CN106226925A, 2016-12-14.
[36]欧阳征标, 郑耀贤, 王琼. 磁光材料空隙波导磁表面快波方向可控光二极管[P]. 广东: CN106200023A, 2016-12-07.
[37]欧阳征标, 郑耀贤, 王琼. 磁光薄膜磁表面快波光二极管[P]. 广东: CN106200024A, 2016-12-07.
[38]欧阳征标, 郑耀贤. 无泄漏磁光材料空隙波导磁表面快波光二极管[P]. 广东: CN106200025A, 2016-12-07.
[39]欧阳征标, 郑耀贤. 无泄漏低损磁光空隙磁表面快模可控单向任意拐弯波导[P]. 广东: CN106200026A, 2016-12-07.
[40]欧阳征标, 郑耀贤, 艾月霞. 低损磁光空隙磁表面快模任意方向可控单向拐弯波导[P]. 广东: CN106154415A, 2016-11-23.
[41]欧阳征标, 郑耀贤. 无泄漏低损磁光薄膜磁表面快模可控单向任意拐弯波导[P]. 广东: CN106154416A, 2016-11-23.
[42]欧阳征标, 陈治良. 基于MIM高灵敏度SPP太赫兹探测器[P]. 广东: CN105737975A, 2016-07-06.
[43]欧阳征标, 陈治良. 基于内置液囊和光谱谷点的高分辨率温度传感器[P]. 广东: CN105716729A, 2016-06-29.
[44]欧阳征标, 陈治良. 基于外置液囊和光谱谷点的超高分辨率温度传感器[P]. 广东: CN105628247A, 2016-06-01.
[45]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的直角输出磁光调制器[P]. 广东: CN105607303A, 2016-05-25.
[46]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的横向输出磁控二选一光路开关[P]. 广东: CN105607304A, 2016-05-25.
[47]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的横向输出磁光调制器[P]. 广东: CN105607305A, 2016-05-25.
[48]欧阳征标, 陈治良. 基于内置液囊和固定波长的高分辨温度传感器[P]. 广东: CN105606250A, 2016-05-25.
[49]欧阳征标, 陈治良. 基于外置液囊和固定波长的超高分辨温度传感器[P]. 广东: CN105571742A, 2016-05-11.
[50]欧阳征标, 陈治良. 一种太赫兹波脉冲调幅信号与光脉冲调幅信号变换放大器[P]. 广东: CN105572797A, 2016-05-11.
[51]欧阳征标, 陈治良. 基于MIM高灵敏度SPP温度光开关[P]. 广东: CN105572798A, 2016-05-11.
[52]欧阳征标, 吴昌义, 金鑫. 光子晶体波导双路反相光学时钟信号发生器[P]. 广东: CN105572917A, 2016-05-11.
[53]欧阳征标, 吴昌义, 金鑫. 基于光子晶体十字波导的磁控二选一光路开关[P]. 广东: CN105572918A, 2016-05-11.
[54]欧阳征标, 吴昌义, 金鑫. 基于光子晶体十字波导的磁光调制器[P]. 广东: CN105572919A, 2016-05-11.
[55]欧阳征标, 吴昌义, 金鑫. 基于光子晶体十字波导的双路反相光学时钟信号发生器[P]. 广东: CN105572920A, 2016-05-11.
[56]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的磁控二选一直角输出光路开关[P]. 广东: CN105572921A, 2016-05-11.
[57]欧阳征标, 吴昌义, 金鑫. 光子晶体T型波导直角输出双路反相光学时钟信号发生器[P]. 广东: CN105572922A, 2016-05-11.
[58]欧阳征标, 余铨强, 南.尤格希. 一种左旋圆偏振转换的超材料薄膜[P]. 广东: CN105161857A, 2015-12-16.
[59]欧阳征标, 余铨强, 南.尤格希. 一种右旋圆偏振转换的超材料薄膜[P]. 广东: CN105044814A, 2015-11-11.
[60]欧阳征标, 黄浩. 方孔式正方晶格光子晶体低折射率双补偿散射柱直角波导[P]. 广东: CN104950383A, 2015-09-30.
[61]欧阳征标, 黄浩. 圆孔式正方晶格光子晶体低折射率双补偿散射柱直角波导[P]. 广东: CN104950384A, 2015-09-30.
[62]欧阳征标, 黄浩. 方柱式正方晶格光子晶体高折射率双补偿散射柱直角波导[P]. 广东: CN104950385A, 2015-09-30.
[63]欧阳征标, 黄浩. 方柱式正方晶格光子晶体高折射率单补偿散射柱直角波导[P]. 广东: CN104950386A, 2015-09-30.
[64]欧阳征标, 黄浩. 圆柱式正方晶格光子晶体高折射率单补偿散射柱直角波导[P]. 广东: CN104950387A, 2015-09-30.
[65]欧阳征标, 黄浩. 圆孔式正方晶格光子晶体低折射率单补偿散射柱直角波导[P]. 广东: CN104950388A, 2015-09-30.
[66]欧阳征标, 黄浩. 圆柱式正方晶格光子晶体高折射率双补偿散射柱直角波导[P]. 广东: CN104950389A, 2015-09-30.
[67]欧阳征标, 黄浩. 一种高传输率高回波损耗高隔离度光子晶体光桥[P]. 广东: CN104932055A, 2015-09-23.
[68]欧阳征标, 陈治良. 基于旋转空心正方柱的二维正方晶格光子晶体[P]. 广东: CN104849805A, 2015-08-19.
[69]欧阳征标, 陈治良. 基于十字连杆与旋转空心正方柱的二维正方晶格光子晶体[P]. 广东: CN104849806A, 2015-08-19.
[70]欧阳征标, 陈治良. 旋转空心正方柱与旋转三角柱二维正方晶格光子晶体[P]. 广东: CN104820264A, 2015-08-05.
[71]郑国梁, 邓想全, 徐世祥, 吴庆阳, 欧阳征标. 一种基于电光衍射的定向分波器及波分复用系统[P]. 广东: CN104730798A, 2015-06-24.
[72]欧阳征标, 王琼. 一种引入补偿柱的高传输率和高隔离度的三端口光环行器[P]. 广东: CN104597630A, 2015-05-06.
[73]王琼, 欧阳征标. 一种引入三角引导柱的宽频带三端口光环行器[P]. 广东: CN104597631A, 2015-05-06.
[74]王琼, 欧阳征标. 一种紧凑型六端口光子晶体环行器[P]. 广东: CN104570409A, 2015-04-29.
[75]欧阳征标, 余铨强. 高对比度光子晶体“或”、“非”、“异或”逻辑门[P]. 广东: CN104536234A, 2015-04-22.
[76]欧阳征标, 余铨强. 光子晶体全光多步延迟自或变换逻辑门[P]. 广东: CN104536235A, 2015-04-22.
[77]欧阳征标, 余铨强. 光子晶体全光多步延迟与变换逻辑门[P]. 广东: CN104536236A, 2015-04-22.
[78]欧阳征标, 余铨强. 光子晶体全光学抗干扰自锁触发开关[P]. 广东: CN104536237A, 2015-04-22.
[79]欧阳征标, 余铨强. 光子晶体全光多步延迟或变换逻辑门[P]. 广东: CN104536238A, 2015-04-22.
[80]欧阳征标, 余铨强. 光学时钟发生器[P]. 广东: CN104536239A, 2015-04-22.
[81]欧阳征标, 余铨强. 高对比度光子晶体与逻辑门[P]. 广东: CN104503186A, 2015-04-08.
[82]欧阳征标, 余铨强. 光子晶体全光自与变换逻辑门[P]. 广东: CN104483800A, 2015-04-01.
[83]欧阳征标, 余铨强. 光子晶体全光多步延迟自与变换逻辑门[P]. 广东: CN104483801A, 2015-04-01.
[84]欧阳征标, 余铨强. 光子晶体全光或变换逻辑门[P]. 广东: CN104483802A, 2015-04-01.
[85]欧阳征标, 余铨强. 光子晶体全光自或变换逻辑门[P]. 广东: CN104483803A, 2015-04-01.
[86]欧阳征标, 余铨强. 光子晶体全光与变换逻辑门[P]. 广东: CN104483804A, 2015-04-01.
[87]欧阳征标, 余铨强. 光子晶体记忆式全光或与逻辑门[P]. 广东: CN104483805A, 2015-04-01.
[88]欧阳征标, 余铨强. 光子晶体全光学D触发器[P]. 广东: CN104485928A, 2015-04-01.
[89]欧阳征标, 文国华. 基于平板光子晶体的高偏振度及高消光比TM光开关[P]. 广东: CN104459988A, 2015-03-25.
[90]欧阳征标, 文国华. 基于平板光子晶体的高消光比TE光开关[P]. 广东: CN104459989A, 2015-03-25.
[91]欧阳征标, 文国华. 基于平板光子晶体的高消光比偏振无关光开关[P]. 广东: CN104459990A, 2015-03-25.
[92]欧阳征标, 文国华. 基于平板光子晶体的高偏振度及高消光比TE光开关[P]. 广东: CN104459991A, 2015-03-25.
[93]欧阳征标, 文国华. 基于平板光子晶体高消光比TM光开关[P]. 广东: CN104375267A, 2015-02-25.
[94]林密, 欧阳征标, 金鑫, 文国华, 王晶晶. 一种基于完全禁带型光子晶体波导的X形交叉偏振光桥[P]. 广东: CN104360440A, 2015-02-18.
[95]欧阳征标, 文国华. 一种十字连杆与旋转正方杆的二维正方晶格光子晶体[P]. 广东: CN104297842A, 2015-01-21.
[96]欧阳征标, 黄浩. 基于高折射率内圆外方空心柱的正方晶格光子晶体[P]. 广东: CN104155718A, 2014-11-19.
[97]欧阳征标, 王晶晶. 基于三连杆柱和圆环柱的大绝对禁带正方晶格光子晶体[P]. 广东: CN104122607A, 2014-10-29.
[98]欧阳征标, 王晶晶. 基于单连杆柱和圆环柱的大绝对禁带正方晶格光子晶体[P]. 广东: CN104101946A, 2014-10-15.
[99]欧阳征标, 金鑫, 林密, 王琼, 文国华, 王晶晶. 基于光子晶体波导的超高效紧凑T字型环行器[P]. 广东: CN104101947A, 2014-10-15.
[100]欧阳征标, 金鑫, 林密, 王琼, 文国华. 基于光子晶体波导的超高效紧凑十字型环行器[P]. 广东: CN104101948A, 2014-10-15.
[101]欧阳征标, 王晶晶. 基于十字连杆柱和圆柱的大绝对禁带正方晶格光子晶体[P]. 广东: CN104101949A, 2014-10-15.
[102]欧阳征标, 王晶晶. 一种圆环杆与平板连杆的二维正方晶格光子晶体[P]. 广东: CN103901536A, 2014-07-02.
[103]欧阳征标, 金鑫, 余铨强, 文国华. 基于光子晶体波导的十字红外偏振光桥[P]. 广东: CN103901537A, 2014-07-02.
[104]陶科玉, 欧阳征标, 郑耀贤. 信号分插复用模块和信号分插复用器[P]. 广东: CN103901541A, 2014-07-02.
[105]陶科玉, 欧阳征标, 刘毅. 可控式光路变换器[P]. 广东: CN103901695A, 2014-07-02.
[106]陶科玉, 欧阳征标. 一种可重构分插复用器及信号分插复用方法[P]. 广东: CN103905139A, 2014-07-02.
[107]欧阳征标, 余铨强, 郑耀贤. 光子晶体全光学可调谐滤波器[P]. 广东: CN103472532A, 2013-12-25.
[108]欧阳征标, 金鑫. 光子晶体波导全偏振态整数比功率分配器[P]. 广东: CN102830463A, 2012-12-19.
[109]金鑫, 雷震宇, 欧阳征标. 基于二维光子晶体薄板的三维偏振分束器[P]. 广东: CN102809782A, 2012-12-05.
[110]欧阳征标, 祁春超. 基于幅度调制器的可调谐光学变频器[P]. 广东: CN102778799A, 2012-11-14.
[111]欧阳征标, 金鑫. 光子晶体波导TM-偏振分离器[P]. 广东: CN102650713A, 2012-08-29.
[112]欧阳征标, 金鑫. 光子晶体波导T形偏振分束器[P]. 广东: CN102650714A, 2012-08-29.
[113]欧阳征标, 金鑫. 光子晶体波导TE-偏振分离器[P]. 广东: CN102650715A, 2012-08-29.
[114]欧阳征标, 祁春超. 基于超声光栅的可调谐光学变频器[P]. 广东: CN102621764A, 2012-08-01.
[115]欧阳征标, 祁春超. 基于相位调制器的可调谐光学变频器[P]. 广东: CN102608824A, 2012-07-25.
[116]欧阳征标, 刘可风. 基于非线性效应的光子晶体交叉波导超短单脉冲光发生器[P]. 广东: CN102591093A, 2012-07-18.
[117]欧阳征标, 程峰, 刘可风. 分光延迟干涉光子晶体超短单脉冲光发生器[P]. 广东: CN102591094A, 2012-07-18.
[118]欧阳征标, 刘可风. 基于光子晶体交叉分光波导的超短单脉冲光发生器[P]. 广东: CN102591095A, 2012-07-18.
[119]欧阳征标, 祁春超. 基于多普勒振镜的可调谐光学变频器[P]. 广东: CN102540624A, 2012-07-04.
[120]欧阳征标, 祁春超. 循环多普勒移频非线性差频式宽带调谐太赫兹波发生器[P]. 广东: CN102255221A, 2011-11-23.
[121]欧阳征标, 祁春超. 基于调制器移频和循环移频的宽带调谐太赫兹波发生器[P]. 广东: CN102255222A, 2011-11-23.
[122]欧阳征标, 祁春超. 循环调制移频非线性差频式宽带调谐太赫兹波发生器[P]. 广东: CN102255223A, 2011-11-23.
[123]欧阳征标, 祁春超. 循环超声光栅移频非线性差频式宽带调谐太赫兹波发生器[P]. 广东: CN102255224A, 2011-11-23.
[124]欧阳征标, 祁春超. 基于超声光栅移频和循环移频的宽带调谐太赫兹波发生器[P]. 广东: CN102244334A, 2011-11-16.
[125]欧阳征标, 祁春超. 基于多普勒频率调制器循环移频的宽调谐太赫兹波发生器[P]. 广东: CN102244335A, 2011-11-16.
[126]欧阳征标, 王琼. 光子晶体磁光环行器及其制备方法[P]. 广东: CN102043261A, 2011-05-04.
[127]欧阳征标, 许桂雯, 刘远常. 二维光子晶体可控式“与/或”逻辑门[P]. 广东: CN102012600A, 2011-04-13.
[128]王琼, 欧阳征标. 光子晶体多端口环行器[P]. 广东: CN101975978A, 2011-02-16.
[129]王琼, 欧阳征标. 基于磁光腔耦合的光子晶体四端口环行器[P]. 广东: CN101788727A, 2010-07-28.
[130]王琼, 欧阳征标. 光子晶体多端口环行器[P]. 广东: CN101788728A, 2010-07-28.
[131]王琼, 欧阳征标. 光子晶体三端口环行器[P]. 广东: CN101726873A, 2010-06-09.
[132]欧阳征标, 林密, 曹恩文. 实现缺陷模均匀分布的方法、结构以及光学器件[P]. 广东: CN101699326A, 2010-04-28.
[133]欧阳征标, 曹恩文. 光子晶体谐振腔、光子晶体激光器及其制造方法[P]. 广东: CN101572377, 2009-11-04.
[134]欧阳征标, 刘强. “十”字波导光子晶体光学“或”、“非”、“异或”逻辑门的实现方法[P]. 广东: CN101251701, 2008-08-27.
[135]欧阳征标, 刘强. 基于密集波分复用技术的多路光学并行运算与处理方法[P]. 广东: CN101252408, 2008-08-27.
[136]欧阳征标, 钟远聪. 多腔级联光子晶体多通道滤波器[P]. 广东: CN101246237, 2008-08-20.
[137]欧阳征标, 许桂雯. 利用衍射效应的表面微柱阵列结构高效率发光二极管[P]. 广东: CN101110461, 2008-01-23.
[138]欧阳征标. THz信号高灵敏度探测器与摄像头[P]. 广东: CN1996029, 2007-07-11.
[139]欧阳征标. 二维光子晶体微谐振腔[P]. 广东: CN1996682, 2007-07-11.
发明授权:
[1]刘强, 张驰, 欧阳征标. 基于聚合物布洛赫表面波的太赫兹气体传感器[P]. 广东省: CN110763653B, 2023-12-29.
[2]欧阳征标, 王琼, 黄海涛, 肖汉文. 一种基于双恒温热源设备的太赫兹激光器[P]. 广东省: CN111431018B, 2023-11-03.
[3]黄粤龙, 欧阳征标, 黄海涛, 陶科玉. 基于单个自动调温低温热源的太赫兹激光器[P]. 广东省: CN111431017B, 2023-10-20.
[4]王琼, 欧阳征标, 林密. 一种带双层耦合介质环周期阵列的太赫兹石墨烯吸收器[P]. 广东省: CN113422211B, 2022-11-29.
[5]林密, 欧阳征标, 傅立新, 王琼. 基于磁光材料的与偏振无关的光子晶体环行器[P]. 广东省: CN112526775B, 2022-07-12.
[6]欧阳征标, 梁丽容, 尹嘉峻, 凡俊兴. 一种法诺共振MHM超表面高灵敏度背景折射率传感器[P]. 广东省: CN109239013B, 2022-05-13.
[7]欧阳征标, 陈治良. 基于内置液囊和固定波长的高分辨温度传感器[P]. 广东省: CN105606250B, 2021-07-13.
[8]欧阳征标, 余铨强. 光子晶体全光自与变换逻辑门[P]. 广东省: CN104483800B, 2021-05-07.
[9]欧阳征标, 余铨强. 光子晶体全光自或变换逻辑门[P]. 广东省: CN104483803B, 2021-05-07.
[10]欧阳征标, 余铨强. 光子晶体全光多步延迟自或变换逻辑门[P]. 广东省: CN104536235B, 2021-05-07.
[11]欧阳征标, 余铨强. 光子晶体全光多步延迟与变换逻辑门[P]. 广东省: CN104536236B, 2021-05-07.
[12]欧阳征标, 余铨强. 光子晶体全光学抗干扰自锁触发开关[P]. 广东省: CN104536237B, 2021-05-07.
[13]欧阳征标, 余铨强. 光子晶体全光多步延迟或变换逻辑门[P]. 广东省: CN104536238B, 2021-05-07.
[14]欧阳征标, 郑耀贤, 艾月霞. 低损磁光空隙磁表面快模任意方向可控单向拐弯波导[P]. 广东省: CN106154415B, 2021-05-04.
[15]欧阳征标, 陈治良. 基于外置液囊和固定波长的超高分辨温度传感器[P]. 广东省: CN105571742B, 2021-04-30.
[16]欧阳征标, 陈治良. 基于MIM高灵敏度SPP太赫兹探测器[P]. 广东省: CN105737975B, 2021-04-30.
[17]欧阳征标, 黄浩. 圆孔式正方晶格光子晶体低折射率单补偿散射柱直角波导[P]. 广东省: CN104950388B, 2021-04-13.
[18]欧阳征标, 陈治良. 基于外置液囊和光谱谷点的超高分辨率温度传感器[P]. 广东省: CN105628247B, 2021-03-16.
[19]欧阳征标, 陈治良. 基于内置液囊和光谱谷点的高分辨率温度传感器[P]. 广东省: CN105716729B, 2021-03-16.
[20]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的横向输出磁光调制器[P]. 广东省: CN105607305B, 2021-03-02.
[21]欧阳征标, 陈治良. 一种太赫兹波脉冲调幅信号与光脉冲调幅信号变换放大器[P]. 广东省: CN105572797B, 2021-02-26.
[22]欧阳征标, 吴昌义, 金鑫. 光子晶体波导双路反相光学时钟信号发生器[P]. 广东省: CN105572917B, 2021-02-19.
[23]欧阳征标, 吴昌义, 金鑫. 基于光子晶体十字波导的磁控二选一光路开关[P]. 广东省: CN105572918B, 2021-02-19.
[24]欧阳征标, 吴昌义, 金鑫. 基于光子晶体十字波导的磁光调制器[P]. 广东省: CN105572919B, 2021-02-19.
[25]欧阳征标, 吴昌义, 金鑫. 基于光子晶体十字波导的双路反相光学时钟信号发生器[P]. 广东省: CN105572920B, 2021-02-19.
[26]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的磁控二选一直角输出光路开关[P]. 广东省: CN105572921B, 2021-02-19.
[27]欧阳征标, 吴昌义, 金鑫. 光子晶体T型波导直角输出双路反相光学时钟信号发生器[P]. 广东省: CN105572922B, 2021-02-19.
[28]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的直角输出磁光调制器[P]. 广东省: CN105607303B, 2021-02-19.
[29]欧阳征标, 吴昌义, 金鑫. 基于光子晶体T型波导的横向输出磁控二选一光路开关[P]. 广东省: CN105607304B, 2021-02-19.
[30]欧阳征标, 郑耀贤. 无泄漏低损磁光薄膜磁表面快模可控单向任意拐弯波导[P]. 广东省: CN106154416B, 2021-02-19.
[31]欧阳征标, 郑耀贤. 无泄漏低损磁光空隙磁表面快模可控单向任意拐弯波导[P]. 广东省: CN106200026B, 2021-02-19.
[32]欧阳征标, 安银冰, 孙一翎. 一种光子晶体波导对角模干涉FANO共振结构[P]. 广东省: CN109669242B, 2021-01-01.
[33]欧阳征标, 黄浩. 方孔式正方晶格光子晶体低折射率双补偿散射柱直角波导[P]. 广东省: CN104950383B, 2020-11-13.
[34]欧阳征标, 黄浩. 圆孔式正方晶格光子晶体低折射率双补偿散射柱直角波导[P]. 广东省: CN104950384B, 2020-11-13.
[35]欧阳征标, 安银冰. 一种光子晶体波导四极分裂模干涉FANO共振结构[P]. 广东省: CN109669241B, 2020-10-13.
[36]欧阳征标, 安银冰. 一种光子晶体波导正交分裂模干涉FANO共振结构[P]. 广东省: CN109669239B, 2020-10-02.
[37]欧阳征标, 安银冰, 吴国城. 一种光子晶体波导六极分裂模干涉FANO共振结构[P]. 广东省: CN109669240B, 2020-10-02.
[38]欧阳征标, 黄粤龙, 肖汉文, 黄海涛. 基于互补矩形脉冲双频光激发的太赫兹激光器[P]. 广东省: CN111009816B, 2020-09-08.
[39]欧阳征标, 黄海涛, 郑耀贤, 肖汉文. 基于单个高温热源的太赫兹激光器[P]. 广东省: CN111029889B, 2020-09-01.
[40]欧阳征标, 黄海涛, 黄粤龙. 基于电磁感应热激发的太赫兹激光器[P]. 广东省: CN111009817B, 2020-09-01.
[41]王琼, 欧阳征标. 可实现Fano共振的多波长可调型纳米传感器[P]. 广东省: CN107478606B, 2020-05-01.
[42]王琼, 欧阳征标. 可实现Fano共振的扇形纳米传感器[P]. 广东省: CN107478249B, 2019-12-10.
[43]欧阳征标, 郑耀贤, 艾月霞. 低损型磁光空隙磁表面快模任意角单向拐弯波导[P]. 广东省: CN106249352B, 2019-04-30.
[44]欧阳征标, 郑耀贤, 艾月霞. 低损磁光薄膜磁表面快模任意方向可控单向拐弯波导[P]. 广东省: CN106291812B, 2019-04-30.
[45]欧阳征标, 郑耀贤. 无泄漏低损型磁光空隙磁表面快模任意角单向拐弯波导[P]. 广东省: CN106291811B, 2019-04-23.
[46]欧阳征标, 郑耀贤. 无泄漏低损型磁光薄膜磁表面快模任意角单向拐弯波导[P]. 广东省: CN106405729B, 2019-04-23.
[47]欧阳征标, 肖栋. 一种用于红外多波段相干光吸收的超表面[P]. 广东省: CN107797163B, 2019-04-23.
[48]欧阳征标, 王琼. 一种引入补偿柱的高传输率和高隔离度的三端口光环行器[P]. 广东省: CN104597630B, 2019-04-23.
[49]欧阳征标, 余铨强, 南.尤格希. 一种左旋圆偏振转换的超材料薄膜[P]. 广东省: CN105161857B, 2018-10-12.
[50]王琼, 欧阳征标. 一种引入三角引导柱的宽频带三端口光环行器[P]. 广东省: CN104597631B, 2018-09-18.
[51]欧阳征标, 陈治良. 基于MIM高灵敏度SPP温度光开关[P]. 广东省: CN105572798B, 2018-08-07.
[52]欧阳征标, 黄浩. 一种高传输率高回波损耗高隔离度光子晶体光桥[P]. 广东省: CN104932055B, 2018-06-05.
[53]欧阳征标, 余铨强. 高对比度光子晶体与逻辑门[P]. 广东省: CN104503186B, 2018-04-27.
[54]欧阳征标, 余铨强. 光学时钟发生器[P]. 广东省: CN104536239B, 2018-03-16.
[55]欧阳征标, 余铨强. 高对比度光子晶体“或”、“非”、“异或”逻辑门[P]. 广东省: CN104536234B, 2017-11-14.
[56]欧阳征标, 陈治良. 旋转空心正方柱与旋转三角柱二维正方晶格光子晶体[P]. 广东省: CN104820264B, 2017-11-14.
[57]欧阳征标, 陈治良. 基于旋转空心正方柱的二维正方晶格光子晶体[P]. 广东省: CN104849805B, 2017-10-03.
[58]欧阳征标, 陈治良. 基于十字连杆与旋转空心正方柱的二维正方晶格光子晶体[P]. 广东省: CN104849806B, 2017-10-03.
[59]林密, 欧阳征标, 金鑫, 文国华, 王晶晶. 一种基于完全禁带型光子晶体波导的X形交叉偏振光桥[P]. 广东省: CN104360440B, 2017-08-25.
[60]欧阳征标, 王晶晶. 基于单连杆柱和圆环柱的大绝对禁带正方晶格光子晶体[P]. 广东省: CN104101946B, 2017-07-18.
[61]欧阳征标, 文国华. 基于平板光子晶体的高偏振度及高消光比TM光开关[P]. 广东省: CN104459988B, 2017-07-18.
[62]王琼, 欧阳征标. 一种紧凑型六端口光子晶体环行器[P]. 广东省: CN104570409B, 2017-07-18.
[63]欧阳征标, 金鑫, 林密, 王琼, 文国华, 王晶晶. 基于光子晶体波导的超高效紧凑T字型环行器[P]. 广东省: CN104101947B, 2017-07-04.
[64]欧阳征标, 黄浩. 基于高折射率内圆外方空心柱的正方晶格光子晶体[P]. 广东省: CN104155718B, 2017-07-04.
[65]欧阳征标, 余铨强, 南.尤格希. 一种右旋圆偏振转换的超材料薄膜[P]. 广东省: CN105044814B, 2017-07-04.
[66]陶科玉, 欧阳征标. 一种可重构分插复用器及信号分插复用方法[P]. 广东省: CN103905139B, 2017-04-26.
[67]欧阳征标, 余铨强. 光子晶体全光与变换逻辑门[P]. 广东省: CN104483804B, 2017-04-12.
[68]欧阳征标, 余铨强. 光子晶体记忆式全光或与逻辑门[P]. 广东省: CN104483805B, 2017-04-12.
[69]欧阳征标, 金鑫, 林密, 王琼, 文国华. 基于光子晶体波导的十字型环行器[P]. 广东省: CN104101948B, 2017-04-12.
[70]欧阳征标, 黄浩. 方柱式正方晶格光子晶体高折射率单补偿散射柱直角波导[P]. 广东省: CN104950386B, 2017-03-22.
[71]欧阳征标, 文国华. 一种十字连杆与旋转正方杆的二维正方晶格光子晶体[P]. 广东省: CN104297842B, 2017-03-22.
[72]欧阳征标, 文国华. 基于平板光子晶体的高消光比TE光开关[P]. 广东省: CN104459989B, 2017-03-08.
[73]欧阳征标, 王晶晶. 基于十字连杆柱和圆柱的大绝对禁带正方晶格光子晶体[P]. 广东省: CN104101949B, 2017-01-25.
[74]欧阳征标, 黄浩. 圆柱式正方晶格光子晶体高折射率双补偿散射柱直角波导[P]. 广东省: CN104950389B, 2017-01-25.
[75]欧阳征标, 余铨强. 光子晶体全光学D触发器[P]. 广东省: CN104485928B, 2017-01-18.
[76]欧阳征标, 文国华. 基于平板光子晶体高消光比TM光开关[P]. 广东省: CN104375267B, 2017-01-11.
[77]欧阳征标, 文国华. 基于平板光子晶体的高消光比偏振无关光开关[P]. 广东省: CN104459990B, 2017-01-11.
[78]欧阳征标, 余铨强. 光子晶体全光多步延迟自与变换逻辑门[P]. 广东省: CN104483801B, 2017-01-11.
[79]欧阳征标, 余铨强. 光子晶体全光或变换逻辑门[P]. 广东省: CN104483802B, 2017-01-11.
[80]欧阳征标, 黄浩. 方柱式正方晶格光子晶体高折射率双补偿散射柱直角波导[P]. 广东省: CN104950385B, 2017-01-11.
[81]欧阳征标, 黄浩. 圆柱式正方晶格光子晶体高折射率单补偿散射柱直角波导[P]. 广东省: CN104950387B, 2017-01-04.
[82]陶科玉, 欧阳征标, 刘毅. 可控式光路变换器[P]. 广东省: CN103901695B, 2016-12-28.
[83]陶科玉, 欧阳征标, 郑耀贤. 信号分插复用模块和信号分插复用器[P]. 广东省: CN103901541B, 2016-08-31.
[84]欧阳征标, 文国华. 基于平板光子晶体的高偏振度及高消光比TE光开关[P]. 广东省: CN104459991B, 2016-08-24.
[85]欧阳征标, 王晶晶. 一种圆环杆与平板连杆的二维正方晶格光子晶体[P]. 广东省: CN103901536B, 2016-08-17.
[86]欧阳征标, 金鑫, 余铨强, 文国华. 基于光子晶体波导的十字红外偏振光桥[P]. 广东省: CN103901537B, 2016-08-17.
[87]欧阳征标, 王晶晶. 基于三连杆柱和圆环柱的大绝对禁带正方晶格光子晶体[P]. 广东省: CN104122607B, 2016-01-20.
[88]欧阳征标, 刘强. 基于密集波分复用技术的多路光学并行运算与处理方法[P]. 广东省: CN101252408B, 2015-06-17.
[89]欧阳征标, 余铨强, 郑耀贤. 光子晶体全光学可调谐滤波器[P]. 广东省: CN103472532B, 2015-05-13.
[90]欧阳征标, 刘可风. 基于光子晶体交叉分光波导的超短单脉冲光发生器[P]. 广东省: CN102591095B, 2015-04-08.
[91]欧阳征标, 金鑫. 光子晶体波导TM-偏振分离器[P]. 广东省: CN102650713B, 2015-04-08.
[92]欧阳征标, 金鑫. 光子晶体波导T形偏振分束器[P]. 广东省: CN102650714B, 2015-04-08.
[93]欧阳征标, 金鑫. 光子晶体波导TE-偏振分离器[P]. 广东省: CN102650715B, 2015-04-08.
[94]欧阳征标, 祁春超. 基于相位调制器的可调谐光学变频器[P]. 广东省: CN102608824B, 2015-02-04.
[95]欧阳征标, 金鑫. 光子晶体波导全偏振态整数比功率分配器[P]. 广东省: CN102830463B, 2014-07-16.
[96]欧阳征标, 祁春超. 基于超声光栅的可调谐光学变频器[P]. 广东省: CN102621764B, 2014-07-02.
[97]欧阳征标, 祁春超. 基于幅度调制器的可调谐光学变频器[P]. 广东省: CN102778799B, 2014-05-14.
[98]欧阳征标, 刘可风. 基于非线性效应的光子晶体交叉波导超短单脉冲光发生器[P]. 广东省: CN102591093B, 2014-02-05.
[99]金鑫, 雷震宇, 欧阳征标. 基于二维光子晶体薄板的三维偏振分束器[P]. 广东省: CN102809782B, 2013-12-25.
[100]欧阳征标, 程峰, 刘可风. 分光延迟干涉光子晶体超短单脉冲光发生器[P]. 广东省: CN102591094B, 2013-12-18.
[101]欧阳征标, 王琼. 光子晶体磁光环行器及其制备方法[P]. 广东省: CN102043261B, 2013-07-03.
[102]欧阳征标, 祁春超. 基于多普勒频率调制器循环移频的宽调谐太赫兹波发生器[P]. 广东省: CN102244335B, 2013-05-22.
[103]欧阳征标, 许桂雯, 刘远常. 二维光子晶体可控式“与/或”逻辑门[P]. 广东省: CN102012600B, 2012-11-07.
[104]欧阳征标, 祁春超. 基于超声光栅移频和循环移频的宽带调谐太赫兹波发生器[P]. 广东省: CN102244334B, 2012-09-26.
[105]欧阳征标, 祁春超. 基于调制器移频和循环移频的宽带调谐太赫兹波发生器[P]. 广东省: CN102255222B, 2012-09-12.
[106]欧阳征标, 祁春超. 循环调制移频非线性差频式宽带调谐太赫兹波发生器[P]. 广东省: CN102255223B, 2012-09-12.
[107]欧阳征标, 祁春超. 循环多普勒移频非线性差频式宽带调谐太赫兹波发生器[P]. 广东省: CN102255221B, 2012-08-15.
[108]王琼, 欧阳征标. 光子晶体多端口环行器[P]. 广东省: CN101975978B, 2012-08-15.
[109]王琼, 欧阳征标. 光子晶体三端口环行器[P]. 广东省: CN101726873B, 2012-08-08.
[110]欧阳征标, 祁春超. 循环超声光栅移频非线性差频式宽带调谐太赫兹波发生器[P]. 广东省: CN102255224B, 2012-08-08.
[111]王琼, 欧阳征标. 基于磁光腔耦合的光子晶体四端口环行器[P]. 广东省: CN101788727B, 2011-11-09.
[112]欧阳征标, 曹恩文. 光子晶体谐振腔、光子晶体激光器及其制造方法[P]. 广东省: CN101572377B, 2011-11-09.
[113]欧阳征标, 钟远聪. 多腔级联光子晶体多通道滤波器[P]. 广东省: CN101246237B, 2011-07-27.
[114]欧阳征标, 林密, 曹恩文. 实现缺陷模均匀分布的方法、结构以及光学器件[P]. 广东省: CN101699326B, 2011-04-06.
[115]欧阳征标, 刘强. “十”字波导光子晶体光学“或”、“非”、“异或”逻辑门的实现方法[P]. 广东省: CN101251701B, 2010-06-02.
实用新型:
[1]郑国梁, 邓想全, 徐世祥, 吴庆阳, 欧阳征标. 一种基于电光衍射的定向分波器及波分复用系统[P]. 广东: CN204496145U, 2015-07-22.
[2]陶科玉, 欧阳征标, 郑耀贤. 信号分插复用模块和信号分插复用器[P]. 广东: CN203012182U, 2013-06-19.
[3]欧阳征标. THz波普通灵敏度摄像头[P]. 广东: CN201100866, 2008-08-13.
论文专著:
发表英文期刊论文:
[1]Asif, Muhammad; Wang, Qiong*; Ouyang, Zhengbiao*; Lin, Mi; Liang, Zixian.Ultra-Wideband Terahertz Wave Absorber Using Vertically Structured IGIGIM Metasurface.Crystals, 2024, 14(1): 22.
[2]Arshad, Naila; Irshad, Muhammad Sultan; Alomar, Muneerah; Guo, Jinming; Asghar, M. Sohail; Mushtaq, Naveed; Yousaf, M. A. K.; Ghazanfar, Uzma; Shah, Matiullah; Wang, Xianbao; Hao, Yabin; Do, Lien Thi; Dao, Van-Duong*; Wang, Hao*; Ouyang, Zhengbiao*; Zhang, Han*.Exploring perovskite oxide for advancing salt-resistant photothermal membranes and reliable thermoelectric generators.Chemical Engineering Journal, 2023, 475: 146200.
[3]Darthy, R. Rachel; Venkateswaran, C.; Subramanian, V.; Ouyang, Zhengbiao; Yogesh, N.*.Accessing new avenues of photonic bandgaps using two-dimensional non-Moire geometries.Scientific Reports, 2023, 13(1): 17077.
[4]Arshad, Naila; Irshad, Muhammad Sultan; Asghar, M. Sohail; Alomar, Muneerah; Tao, Junyang; Shah, M. A. K. Yousaf; Wang, Xianbao; Guo, Jinming; Wageh, S.; Al-Hartomy, Omar A.; Kalam, Abul; Hao, Yabin*; Ouyang, Zhengbiao*; Zhang, Han*.2D MXenes Embedded Perovskite Hydrogels for Efficient and Stable Solar Evaporation.GLOBAL CHALLENGES, 2023, 7(9).
[5]An, Yinbing; Fu, Tao; Guo, Chunyu; Pei, Jihong; Ouyang, Zhengbiao*.Two Individual Super-Bound State Modes within Band Gap with Ultra-High Q Factor for Potential Sensing Applications in the Terahertz Wave Band.Sensors (Switzerland), 2023, 23(15): 6737.
[6]An, Yinbing; Fu, Tao; Guo, Chunyu; Pei, Jihong; Ouyang, Zhengbiao*.Superbound state in photonic bandgap and its application to generate complete tunable SBS-EIT, SBS-EIR and SBS-Fano.Optics Express, 2023, 31(12): 20572-20585.
[7]Laxmi, Vijay; Tyagi, Deepika; Parveen, Abida; Singh, Lalit; Ouyang, Zhengbiao*.Silicon/graphene-ITO multiple heterojunctions and 1D PhC waveguide-based photodetection for mid-NIR IPE with high responsivity.Optics Communications, 2023, 530: 129142.
[8]Elshahat, Sayed*; Mohamed, Zain Elabdeen A.; Abd-Elnaiem, Alaa M.; Ouyang, Zhengbiao*; Almokhtar, Mohamed*.One-dimensional topological photonic crystal for high-performance gas sensor.Micro and Nanostructures, 2022, 172: 207447.
[9]Fu, Lixin; Lin, Mi*; Liang, Zixian; Wang, Qiong; Zheng, Yaoxian; Ouyang, Zhengbiao.The Transmission Properties of One-Dimensional Photonic Crystals with Gradient Materials.Materials, 2022, 15(22): 8049.
[10]Zheng, Yaoxian; Wang, Qiong; Lin, Mi; Bibbo, Luigi; Ouyang, Zhengbiao*.Twisted Bands with Degenerate Points of Photonic Hypercrystals in Infrared Region.Nanomaterials, 2022, 12(12): 1985.
[11]Pavithra, M.; Ravichandran, K.; Subramanian, V; Ouyang, Zhengbiao; Yogesh, N.*.Tailoring the terahertz far-field radiation pattern based on asymmetric transmission of linearly polarized waves in metasurface tiles.Journal of the Optical Society of America B-Optical Physics, 2022, 39(3): 771-778.
[12]Zheng, Yaoxian; Wang, Qiong; Lin, Mi; Ouyang, Zhengbiao*.Enhancement of Self-Collimation Effect in Photonic Crystal Membranes Using Hyperbolic Metamaterials.Nanomaterials, 2022, 12(3): 555.
[13]Laxmi, Vijay; Parveen, Abida; Tyagi, Deepika; Singh, Lalit; Ouyang, Zhengbiao*.Nanophotonic modulator based on Silicon-ITO heterojunction and slot waveguide with 2D-graphene sheet.Journal of Optics (India), 2022.
[14]Wang, Qiong*; Ouyang, Zhengbiao; Lin, Mi; Zheng, Yaoxian.High-Quality Graphene-Based Tunable Absorber Based on Double-Side Coupled-Cavity Effect.Nanomaterials, 2021, 11(11): 2824.
[15]Zhang, Chi; Liu, Qiang; Peng, Xiao; Ouyang, Zhengbiao; Shen, Suling*.Sensitive THz sensing based on Fano resonance in all-polymeric Bloch surface wave structure.Nanophotonics, 2021, 10(15): 3879-3888.
[16]Ahmad, Waqas; Liu, Jidong; Jiang, Jizhou; Hao, Qiaoyan; Wu, Di; Ke, Yuxuan; Gan, Haibo; Laxmi, Vijay; Ouyang, Zhengbiao; Ouyang, Fangping; Wang, Zhuo; Liu, Fei; Qi, Dianyu; Zhang, Wenjing*.Strong Interlayer Transition in Few-Layer InSe/PdSe2 van der Waals Heterostructure for Near-Infrared Photodetection.Advanced Functional Materials, 2021, 31(43): 2104143.
[17]Liu, Yan; Huang, Rui; Ouyang, Zhengbiao*.Numerical Investigation of Graphene and STO Based Tunable Terahertz Absorber with Switchable Bifunctionality of Broadband and Narrowband Absorption.Nanomaterials, 2021, 11(8): 2044.
[18]Elshahat, Sayed; Abood, Israa; Esmail, Mohamed Saleh M.; Ouyang, Zhengbiao; Lu, Cuicui*.One-Dimensional Topological Photonic Crystal Mirror Heterostructure for Sensing.Nanomaterials, 2021, 11(8): 1940.
[19]Liu, Yan; Huang, Rui; Ouyang, Zhengbiao*.Terahertz absorber with dynamically switchable dual-broadband based on a hybrid metamaterial with vanadium dioxide and graphene.Optics Express, 2021, 29(13): 20839-20850.
[20]Elshahat, Sayed; Abood, Israa; Liang, Zixian; Pei, Jihong; Ouyang, Zhengbiao*.Elongated-Hexagonal Photonic Crystal for Buffering, Sensing, and Modulation.Nanomaterials, 2021, 11(3): 809.
[21]Lin, Mi; Fu, Lixin; Ahmed, Shakeel; Wang, Qiong; Zheng, Yaoxian; Liang, Zixian; Ouyang, Zhengbiao*.Polarization-Independent Circulator Based on Composite Rod of Ferrite and Plasma in Photonic Crystal Structure.Nanomaterials, 2021, 11(2): 381.
[22]Elshahat, Sayed; Abood, Israa; Liang, Zixian; Pei, Jihong; Ouyang, Zhengbiao*.Dispersion engineering of W2 steeple-house-defect waveguide photonic crystal.Results in Physics, 2020, 19: 103547.
[23]Elshahat, Sayed; Abood, Israa; Liang, Zixian; Pei, Jihong; Ouyang, Zhengbiao*.Futuristic elongated-hexagonal photonic crystal waveguide for slow light.Optics Communications, 2020, 474: 126082.
[24]Abood, Israa; Elshahat, Sayed; Ouyang, Zhengbiao*.High Figure of Merit Optical Buffering in Coupled-Slot Slab Photonic Crystal Waveguide with Ionic Liquid.Nanomaterials, 2020, 10(9): 1742.
[25]Darthy, R. Rachel; Venkateswaran, C.; Subramanian, V.; Ouyang, Zhengbiao; Yogesh, N.*.Fabry-Perot modes associated with hyperbolic-like dispersion in dielectric photonic crystals and demonstration of a bending angle sensor at microwave frequencies.Scientific Reports, 2020, 10(1): 11117.
[26]Liu, Qiang*; Lu, Huihui; Bibbo, Luigi; Wang, Qiong; Lin, Mi; Tao, Keyu; Albin, Sacharia*; Ouyang, Zhengbiao*.Hybrid plasmonic-phononic cavity design for enhanced optomechanical coupling in lithium niobate.Applied Nanoscience, 2020, 10(5): 1395-1407.
[27]Amaljith, C. K.; Venkateswaran, C.; Subramanian, V; Ouyang, Zhengbiao; Yogesh, N.*.Anisotropic asymmetric transmission of circularly polarized terahertz waves in a three-dimensional spline assembly.Optics Letters, 2020, 45(8): 2315-2318.
[28]An, Yinbing; Gao, Zhen; Ouyang, Zhengbiao.Surface wave photonic quasicrystal.Applied Physics Letters, 2020, 116(15): 151104.
[29]An, Yinbing; Fu, Tao; Liu, Qiang; Ouyang, Zhengbiao*.High-Q Fano resonance based on degenerate modes in a single dielectric point-defect photonic crystal cavity with x-y asymmetry.Applied Physics Express, 2020, 13(3): 032006.
[30]Zhang, Chi; Shen, Suling; Wang, Qiong; Lin, Mi; Ouyang, Zhengbiao; Liu, Qiang.Highly Sensitive THz Gas-Sensor Based on the Guided Bloch Surface Wave Resonance in Polymeric Photonic Crystals.Materials, 2020, 13(5): 1217.
[31]Khan, Karim*; Tareen, Ayesha Khan; Aslam, Muhammad; Zhang, Yupeng; Wang, Renheng; Khan, Sayed Ali; Khan, Qudrat Ullah; Rauf, Muhammad; Zhang, Han*; Ouyang, Zhengbiao*; Guo, Zhongyi*.Facile Synthesis of Mayenite Electride Nanoparticles Encapsulated in Graphitic Shells Like Carbon Nano Onions: Non-noble-metal Electrocatalysts for Oxygen Reduction Reaction (ORR).Frontiers in Chemistry, 2020, 7: 934.
[32]Muhammad, Naseer; Ouyang, Zhengbiao.Plasmon-induced anti-transparency modes in metasurface.Applied Nanoscience, 2020, 10(1): 15-22.
[33]Elshahat, Sayed; Abood, Israa; Liang, Zixian; Pei, Jihong; Ouyang, Zhengbiao*.Sporadic-Slot Photonic-Crystal Waveguide for All-Optical Buffers With Low-Dispersion, Distortion, and Insertion Loss.IEEE Access, 2020, 8: 77689-77700.
[34]Khan, Karim*; Tareen, Ayesha Khan; Aslam, Muhammad; Khan, Sayed Ali; Khan, Qasim; Khan, Qudrat Ullah; Saeed, Muhammad; Saleemi, Awais Siddique; Kiani, Maryam; Ouyang, Zhengbiao; Zhang, Han*; Guo, Zhongyi*.Fe-doped mayenite electride composite with 2D reduced Graphene Oxide: As a non-platinum based, highly durable electrocatalyst for Oxygen Reduction Reaction.Scientific Reports, 2019, 9(1): 19809.
[35]Khan, Karim*; Tareen, Ayesha Khan; Aslam, Muhammad; Zhang, Yupeng; Wang, Renheng; Ouyang, Zhengbiao*; Gou, Zhongyi*; Zhang, Han*.Recent advances in two-dimensional materials and their nanocomposites in sustainable energy conversion applications.Nanoscale, 2019, 11(45): 21622-21678.
[36]Khan, Karim*; Tareen, Ayesha Khan*; Aslam, Muhammad; Khan, Qasim; Khan, Sayed Ali; Khan, Qudrat Ullah; Saleemi, Awais Siddique; Wang, Renheng; Zhang, Yupeng; Guo, Zhongyi; Zhang, Han*; Ouyang, Zhengbiao*.Novel Two-Dimensional Carbon-Chromium Nitride-Based Composite as an Electrocatalyst for Oxygen Reduction Reaction.Frontiers in Chemistry, 2019, 7: 738.
[37]Elshahat, Sayed; Abood, Israa; Khan, Karim; Yadav, Ashish; Ouyang, Zhengbiao*.High-capability micro-optical buffer based on coupled hexagonal cavity in photonic crystal waveguide.Applied Nanoscience, 2019, 9(8): 1963-1970.
[38]Muhammad, Naseer; Tang, Xiaopin; Fu, Tao; Liu, Qiang; Ouyang, Zhengbiao*。Broadband polarization-insensitive absorption by metasurface with metallic pieces for energy harvesting application.Materials Science and Engineering B-Solid State Materials for Advanced Technology, 2019, 249: 114419.
[39]Bibbò, Luigi; Liu, Qiang; Khan, Karim; Yadav, Ashish; Elshahat, Sayed; Abood, Israa; Ouyang, Zhengbiao*.Radiation-direction steerable nanoantennae.SN Applied Sciences, 2019, 1(8): 844.
[40]Muhammad, Naseer; Ouyang, Zhengbiao*; Tang, Xiaopin; Liu, Qiang.Broadband Wide-Angle Incident Light Absorption by Metallic Loop Metasurfaces Based on Electro-Optic Substrate.IEEE Photonics Technology Letters, 2019, 31(13): 1068-1071.
[41]Wang, Qiong; Ouyang, Zhengbiao*; Liu, Qiang; Lin, Mi.Densely Distributed Multiple Resonance Modes in a Fan-Shaped Plasmonic Nanostructure Demonstrated by FEM Simulations.Nanomaterials, 2019, 9(7): 975.
[42]Khan, Karim*; Tareen, Ayesha Khan; Aslam, Muhammad; Thebo, Khalid Hussain; Khan, Usman; Wang, Renheng; Shams, S Saqib; Han, Zhang*; Ouyang, Zhengbiao*.A comprehensive review on synthesis of pristine and doped inorganic room temperature stable mayenite electride, [Ca24Al28O64](4 )(e(-))(4) and its applications as a catalyst.Progress in Solid State Chemistry, 2019, 54: 1-19.
[43]Abood, Israa; Elshahat, Sayed; Khan, Karim; Bibbo, Luigi; Yadav, Ashish; Ouyang, Zhengbiao*.Slow light with high normalized delay-bandwidth product in low-dispersion photonic-crystal coupled-cavity waveguide.Optics Communications, 2019, 439: 181-186.
[44]Wang, Qiong; Ouyang, Zhengbiao*; Sun, Yiling; Lin, Mi; Liu, Qiang.Linearly Tunable Fano Resonance Modes in a Plasmonic Nanostructure with a Waveguide Loaded with Two Rectangular Cavities Coupled by a Circular Cavity.Nanomaterials, 2019, 9(5): 678.
[45]Wang, Qiong; Ouyang, Zhengbiao*; Sun, Yiling; Lin, Mi; Liu, Qiang.Linearly Tunable Fano Resonance Modes in a Plasmonic Nanostructure with a Waveguide Loaded with Two Rectangular Cavities Coupled by a Circular Cavity.Nanomaterials, 2019, 9(5): 678.
[46]Bibbo, Luigi; Liu, Qiang; Khan, Karim; Yadav, Ashish; Elshahat, Sayed; Deng, Zi Lan; Ouyang, Zhengbiao*.High-speed amplitude modulator with a high modulation index based on a plasmonic resonant tunable metasurface.Applied Optics, 2019, 58(10): 2687-2694.
[47]Muhammad, Naseer; Ouyang, Zhengbiao*; Liu, Qiang; Tang, Xiaopin; Deng, Zi Lan; Khan, Adnan Daud.Sensitive label-free sensor with high figure of merit based on plasmonic metasurface with unit cell of double two-split nanorings.Journal of Materials Science, 2019, 54(8): 6301-6309.
[48]Khan, Karim*; Tareen, Ayesha Khan; Khan, Usman; Nairan, Adeela; Elshahat, Sayed; Muhammad, Naseer; Saeed, Muhammad; Yadav, Ashish; Bibbo, Luigi; Ouyang, Zhengbiao*.Single step synthesis of highly conductive room-temperature stable cation-substituted mayenite electride target and thin film.Scientific Reports, 2019, 9: 4967.
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[51]Xiao, Dong; Liu, Qiang; Lei, Lei; Sun, Yiling; Ouyang, Zhengbiao; Tao, Keyu*.Coupled Resonance Enhanced Modulation for a Graphene-Loaded Metamaterial Absorber.Nanoscale Research Letters, 2019, 14: 32.
[52]Muhammad, Naseer; Fu, Tao; Liu, Qiang; Tang, Xiaopin; Deng, Zi Lan; Ouyang, Zhengbiao*.Plasmonic Metasurface Absorber Based on Electro-Optic Substrate for Energy Harvesting.Materials, 2018, 11(11): 2315.
[53]Tang, Xiaopin; Yang, Ziqiang*; Khan, Karim; Muhammad, Naseer; Ouyang, Zhengbiao*.Theoretical and Cold-Test Investigation of a Four-Port High-Frequency System for a 0.14-THz Dual-Sheet-Beam Backward-Wave Oscillator.IEEE Transactions on Electron Devices, 2018, 65(11): 5068-5074.
[54]Khan, Karim*; Tareen, Ayesha Khan; Li, Jia; Khan, Usman; Nairan, Adeela; Yuan, Yao; Zhang, Xuyang; Yang, Minghui; Ouyang, Zhengbiao*.Facile synthesis of tin-doped mayenite electride composite as a non-noble metal durable electrocatalyst for oxygen reduction reaction (ORR).Dalton Transactions, 2018, 47(38): 13498-13506.
[55]Xu, Xizhen; He, Jun*; Liao, Changrui; Yang, Kaiming; Gu, Kuikui; Li, Chi; Zhang, Yunfang; Ouyang, Zhengbiao; Wang, Yiping.Sapphire fiber Bragg gratings inscribed with a femtosecond laser line-by-line scanning technique.Optics Letters, 2018, 43(19): 4562-4565.
[56]Wang, Qiong; Ouyang, Zhengbiao*; Lin, Mi; Liu, Qiang.Independently Tunable Fano Resonances Based on the Coupled Hetero-Cavities in a Plasmonic MIM System.Materials, 2018, 11(9): 1675.
[57]Elshahat, Sayed; Abood, Israa; Khan, Karim; Yadav, Ashish; Wang, Qiong; Liu, Qiang; Lin, Mi; Tao, Keyu; Ouyang, Zhengbiao*.Ultra-wideband slow light transmission with high normalized delay bandwidth product in W3 photonic crystal waveguide.Superlattices and Microstructures, 2018, 121: 45-54.
[58]Elshahat, Sayed; Khan, Karim; Yadav, Ashish; Bibbo, Luigi; Ouyang, Zhengbiao*.Slow-light transmission with high group index and large normalized delay bandwidth product through successive defect rods on intrinsic photonic crystal waveguide.Optics Communications, 2018, 418: 73-79.
[59]Xi, Xiang; Lin, Mi*; Qiu, Wenbiao; Ouyang, Zhengbiao; Wang, Qiong; Liu, Qiang.Polarization-independent circulator based on ferrite and plasma materials in two-dimensional photonic crystal.Scientific Reports, 2018, 8(1): 7827.
[60]Wang, Qiong; Ouyang, Zhengbiao*; Sun, Yiling; Lin, Mi; Liu, Qiang; Zheng, Guoliang; Fan, Junxing.Tunable Nanosensor Based on Fano Resonances Created by Changing the Deviation Angle of the Metal Core in a Plasmonic Cavity.Sensors, 2018, 18(4): 1026.
[61]Khan, Karim*; Tareen, Ayesha Khan; Elshahat, Sayed; Yadav, Ashish; Khan, Usman; Yang, Minghui; Bibbo, Luigi; Ouyang, Zhengbiao.Facile synthesis of a cationic-doped [Ca24Al28O64](4 )(4e(-)) composite via a rapid citrate sol-gel method.Dalton Transactions, 2018, 47(11): 3819-3830.
[62]Qiang Liu*; Luigi Bibbó; Sacharia Albin*; Qiong Wang; Mi Lin; Huihui Lu; Ouyang, Zhengbiao*.Plasmonic waveguide design for the enhanced forward stimulated Brillouin scattering in diamond.Science Reports, 2018, 8(1): 88.
[63]Khan, Karim*; Tareen, Ayesha Khan; Elshahat, Sayed; Muhammad, Naseer; Li, Jia; Aboodd, Israa; Bibbo, Luigi; Yadav, Ashish; Sagar, Rizwan Ur Rehman; Khan, Usman; Ouyang, Zhengbiao*.Facile metal-free reduction-based synthesis of pristine and cation-doped conductive mayenite.RSC Advances, 2018, 8(43): 24276-24285.
[64]Huang, Hao; Ouyang, Zhengbiao*.General method for eliminating wave reflection in 2D photonic crystal waveguides by introducing extra scatterers based on interference cancellation of waves.Optics Communications, 2018, 406: 260-270.
[65]Asadi, Reza*; Ouyang, Zhengbiao*.Nonlinear digital out-of-plane waveguide coupler based on nonlinear scattering of a single graphene layer.Optics Communications, 2018, 411: 148-151.
[66]Naseer Muhammad; Adnan Daud Khan; Zi-Lan Deng; Karim Khan; Ashish Yadav; Qiang Liu; Ouyang, Zhengbiao*.Plasmonic Spectral Splitting in Ring/Rod Metasurface.Nanomaterials, 2017, 7(11): 397.
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[68]Luo, Hanjun; Ouyang, Zhengbiao*; Liu, Qiang; Chen, Zhiliang; Lu, Hualan.Cumulative detection probabilities and range accuracy of a pulsed Geiger-mode avalanche photodiode laser ranging system.Journal of Modern Optics, 2017, 64(18): 1898-1906.
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[71]Fan, Junxing; Xiao, Dong; Wang, Qiong; Liu, Qiang; Ouyang, Zhengbiao*.Wide-angle broadband terahertz metamaterial absorber with a multilayered heterostructure.Applied Optics, 2017, 56(15): 4388-4391.
[72]Luo, Hanjun; Ouyang, Zhengbiao*; Liu, Qiang; Lu, Zhenli; Li, Bin.Improved cumulative probabilities and range accuracy of a pulsed Geiger-mode avalanche photodiode laser ranging system with turbulence effects.Applied Optics, 2017, 56(29): 8216-8223.
[73]Fu, Tao; Yang, Zi-Qiang; Ouyang, Zheng-Biao*.Design and Experimental Demonstration of Cherenkov Radiation Source Based on Metallic Photonic Crystal Slow Wave Structure.Journal of Infrared Millimeter and Terahertz Waves, 2016, 37(11): 1061-1068.
[74]Lin, Mi; Xi, Xiang; Qiu, Wenbiao; Ai, Yuexia; Wang, Qiong; Liu, Qiang; Ouyang, Zhengbiao*.Star-type polarizer with equal-power splitting function for each polarization based on polarization-dependent defects in twod-imensional photonic-crystal waveguides.Optics Express, 2016, 24(21): 23917-23924.
[75]Hao Huang; Zhengbiao Ouyang.General method for eliminating wave reflection in 2D photonic crystal waveguides by introducing extra scatterers based on interference cancellation of waves.Optics Communications, 2016.
[76]Wang, Yong; Zhang, Dengguo*; Xu, Shixiang; Ouyang, Zhengbiao; Li, Jingzhen.Low-loss Y-junction two-dimensional magneto-photonic crystals circulator using a ferrite cylinder.Optics Communications, 2016, 369: 1-6.
[77]Deng, Zi-Lan; Fu, Tao; Ouyang, Zhengbiao; Wang, Guo Ping*.Trimeric metasurfaces for independent control of bright and dark modes of Fano resonances.Applied Physics Letters, 2016, 108(8): 081109.
[78]Lin, Mi; Qiu, Wenbiao; Xi, Xiang; Ouyang, Zhengbiao*.Polarization selective power splitters for TE and TM waves based on two-dimensional photonic crystals.Acta Optica Sinica, 2016, 36(12): 1223001.
[79]Fu, Tao; Ouyang, Zhengbiao.Simulation of cherenkov radiation source in a plasma-filled metallic photonic crystal.Acta Physica Sinica, 2016, 65(7): 074208.
[80]Deng, Zi-Lan; Yogesh, Natesan; Chen, Xiao-Dong; Chen, Wen-Jie; Dong, Jian-Wen; Ouyang, Zhengbiao; Wang, Guo Ping*.Full controlling of Fano resonances in metal-slit superlattice.SCIENTIFIC REPORTS, 2015, 5: 18461.
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[82]Reza Asadi; Zhengbiao Ouyang*.Low Threshold, Wide Dynamic Range, Tunable, All-Optical Self-Modulator Based on Fano Resonance and Out-of-Plane Coupling in a Slab Photonic Crystal with a Graphene Layer.Journal of Nanotechnology, 2015, 2015(2015).
[83]Wang, Qiong; Ouyang, Zhengbiao*; Zheng, Yaoxian; Lin, Mi; Zheng, Guoliang.Broadband six-port circulator based on magneto-optical-rod ring in photonic crystal.Applied Physics B: Lasers and Optics , 2015, 121(3): 385-389.
[84]Zhou, Xiaoyi; Liu, Dingwen; Sun, Yiling*; Ouyang, Zhengbiao.Three-visible-light wave combiner based on photonic crystal microcavities.Applied Optics, 2015, 54(22): 6783-6786.
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[87]Yogesh, N.; Fu, Tao; Lan, Feng; Ouyang, Zhengbiao*.Far-infrared circular polarization and polarization filtering based on fermat's spiral chiral metamaterial.IEEE Photonics Journal, 2015, 7(3): 4600212.
[88]Yogesh, N.; Yu, Quanqiang; Ouyang, Zhengbiao*.Single- and multi-beam confinement of electromagnetic waves in a photonic crystal open cavity providing rapid heating and high temperatures.Photonics and Nanostructures-Fundamentals and Applications, 2015, 15(3): 89-98.
[89]Wang, Jing-Jing; Ouyang, Zheng-Biao; Wen, Guo-Hua; Huang, Hao; Lin, Mi; Wang, Qiong.2D square-lattice photonic crystal based on circular-ring cylinders and thin cross plates suitable for optical integrated circuits.Acta Photonica Sinica, 2015, 44(4): 0423002.
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[93]Asadi, Reza; Ouyang, Zhengbiao*.Low Threshold, Wide Dynamic Range, Tunable, All-Optical Self-Modulator Based on Fano Resonance and Out-of-Plane Coupling in a Slab Photonic Crystal with a Graphene Layer.Journal of Nanotechnology, 2015, 2015: 767495.
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[96]Xin Jin; Zhengbiao Ouyang*; Qiong Wang; Mi Lin; Guohua Wen; Jingjing Wang.Highly Compact Circulators in Square-Lattice Photonic Crystal Waveguides.PLoS One, 2014, 9(11): e113508.
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[99]Ouyang, Zhengbiao; Zhang, Shi-Chang*.Focusing peculiarities of ion-channel guiding on a relativistic electron beam in a free-electron laser with a three-dimensional wiggler.Laser Physics, 2014, 24(10): 105002.
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[102]Wang, Yong; Zhang, Deng-Guo*; Ouyang, Zheng-Biao; Li, Jing-Zhen.Three-port Y-junction optical circulator using a ferrite cylinder in two-dimensional magneto-photonic crystals.Acta Photonica Sinica, 2014, 43(6).
[103]Wang, Bing*; Jin, Xin; Wu, Huanyu; Zheng, Zhaoqiang; Ouyang, Zhengbiao.3D resonator based on luminescence enhanced by both polarized, size-dependent whispering gallery modes and Fabry-Perot waveguide modes in individual ZnO micro- and nanonails.Nanoscale, 2014, 6(10): 5338-5342
[104]Sesay, Maurice; Jin, Xin; Ouyang, Zhengbiao*.Frequency selective surface with arbitrary shapes and its application to filter design.Progress in Electromagnetics Research B, 2014, 58(57): 75-85.
[105]Jin, Xin; Sesay, Maurice; Ouyang, Zhengbiao*; Liu, Qiang; Lin, Mi; Tao, Keyu; Zhang, Dengguo.Photonic-crystal structures with polarized-wave-guiding property and their applications in the mid and far infrared wave bands.Optics Express, 2013, 21(21): 25592-25606.
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[107]Liu, Qiang1; Ouyang, Zhengbiao2; Albin, Sacharia1, 3*.Designs of photonic crystal nanocavities for stimulated Raman scattering in diamond.Applied Physics B: Lasers and Optics , 2013, 2014(1-2).
[108]Zheng, Yaoxian1, 2; Yu, Quanqiang1, 2; Tao, Keyu1, 2*; Ouyang, Zhengbiao1, 2*.All-optical tunable filters based on optomechanical effects in two-dimensional photonic crystal cavities.Optics Letters, 2013, 38(21): 4362-4365.
[109]Liu, Qiang; Ouyang, Zhengbiao; Albin, Sacharia*.Photonic crystal nano-cavities for enhancing zero-phonon line emission from nitrogen-vacancy centers in diamond.Optics and Laser Technology, 2013, 48: 128-134.
[110]Sesay, Maurice; Jin, Xin; Ouyang, Zhengbiao*.Design of polarization beam splitter based on coupled rods in a square-lattice photonic crystal.Journal of the Optical Society of America B-Optical Physics, 2013, 30(8): 2043-2047.
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[114]Wu, Chih Jung; Liu, Chung Ping; Ouyang, Zhengbiao*.Compact and low-power optical logic NOT gate based on photonic crystal waveguides without optical amplifiers and nonlinear materials.Applied Optics, 2012, 51(5): 680-685.
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[120]Tao, K.; Qiu, G.; Zheng, G.; Liu, Q.; Li, L.; Ouyang, Z.*.Terahertz subwavelength filters based on a 2D lattice of metal wires.Applied Physics B: Lasers and Optics , 2010, 101(1-2): 305-310.
[121]Fang, Yun-Tuan*; Ouyang, Zheng-Biao.Transmission spectrum and potential applications of periodic structure composed of single-negative material and anisotropic material.Optics and Lasers in Engineering, 2010, 48(10): 1034-1037.
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[124]Zheng, Guoliang*; Ouyang, Zhengbiao; Xu, Shixiang.A high-speed widely tunable Solc-type flat-top filter based on the dual transverse Pockels effect.Journal of Optics, 2010, 12(3): 035213.
[125]Fang, Yun-Tuan*; Ouyang, Zheng-Biao.POWER-LOSSLESS CHANNEL SWITCH BASED ON LATTICE SOLITONS.Modern Physics Letters B, 2010, 24(3): 297-304.
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[131]Mao, Depeng; Ouyang, Zhengbiao*; Wang, Jong C.; Liu, Chung Ping.Single-TM-mode Bragg fibers made of magnetic materials.Optics Express, 2008, 16(2): 628-635.
[132]Fang, Yuntuan*; Ouyang, Zhengbiao.Realization of absolute negative refraction index by a photonic crystal using anisotropic dielectric material.Chinese Optics Letters, 2008, 6(1): 57-60.
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发表期刊论文:
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[5]傅涛, 欧阳征标. 等离子体填充金属光子晶体Cherenkov辐射源模拟研究[J]. 物理学报, 2016, 65 (07): 191-197.
[6]傅涛, 杨梓强, 欧阳征标*. 等离子体填充金属光子晶体慢波结构色散特性研究[J]. 物理学报, 2015, 64 (17): 142-148.
[7]王晶晶, 欧阳征标*, 文国华, 黄浩, 林密, 王琼. 圆环杆与平板连杆的适合光路集成的二维正方晶格光子晶体(英文)[J]. 光子学报, 2015, 44 (04): 88-92.
[8]王勇, 张登国, 欧阳征标, 李景镇. 四端口十字型二维磁性光子晶体环行器[J]. 光学学报, 2014, 34 (10): 265-269.
[9]王勇, 张登国, 欧阳征标, 李景镇. 基于二维磁性光子晶体的三端口Y形铁氧体柱环行器[J]. 光子学报, 2014, 43 (06): 89-92.
[10]郑国梁*; 徐世祥; 欧阳征标; 贺威.角度不敏感Solc型电光滤波器设计.光学学报, 2014, 34(s1): s119002.
[11]祁春超, 欧阳征标*. 基于600—2000nm抽运源的太赫兹相干光源的最新进展[J]. 物理学报, 2011, 60 (09): 873-881.
[12]欧阳征标, 曹恩文, 李成宽. 基于光子晶体的偏振正交双色激光器谐振腔(英文)[J]. 深圳大学学报(理工版), 2011, 28 (04): 302-310.
[13]艾月霞; 欧阳征标; 徐平.加强校企合作 夯实教学质量——深圳大学电子学院探索专业实习新路子.中国科教创新导刊, 2010, (16): 166+168.
[14]郑国梁, 欧阳征标, 徐世祥. 偏振态对准相位匹配线性电光效应的影响[J]. 应用光学, 2010, 31 (04): 666-671.
[15]郑国梁, 欧阳征标*, 徐世祥. 吸收对准相位匹配线性电光效应的影响(英文)[J]. 深圳大学学报(理工版), 2010, 27 (02): 152-156.
[16]郑国梁, 欧阳征标. 温度不敏感偏振无关电光调制器设计[J]. 应用光学, 2009, 30 (06): 911-915.
[17]欧阳征标, 艾月霞, 杜戈果, 龚向东, 杜晨林, 张登国. 高等教育动态教学质量控制系统探索[J]. 电气电子教学学报, 2009, 31 (S1): 129-131.
[18]林密, 欧阳征标*, 徐军. 含负磁导率或双负材料的一维光子晶体的全方位带隙中波的反射相位特性[J]. 光子学报, 2009, 38 (08): 1946-1952.
[19]艾月霞, 欧阳征标. 建立本科教育质量保障体系的研究与实践[J]. 科技创新导报, 2009, (15): 161.
[20]钟远聪, 欧阳征标, 王宏, 王仲淳, 刘宗平, 吴志荣. 1维光子晶体微腔的光子局域特性分析[J]. 激光技术, 2009, 33 (02): 127-129+133.
[21]王宏, 欧阳征标, 韩艳玲, 钟远聪, 阮双琛. 一维光子晶体激光器中模场的空间分布及其对阈值的影响[J]. 光子学报, 2008, (01): 95-100.
[22]周慧, 张登国, 欧阳征标, 李景镇. 应用于光隔离器的一维磁光光子晶体结构探索[J]. 光子学报, 2008, (01): 106-109.
[23]钟远聪; 欧阳征标; 刘强.石墨结构光子晶体缺陷形态对品质因子的影响.光子学报, 2008, 37(s2): 60-62.
[24]刘强; 欧阳征标*.基于二维光子晶体“十字”结构的半加器.光子学报, 2008, 37(s2): 46-50.
[25]艾月霞; 欧阳征标.构建高效教学质量监控体系探讨.中国科教创新导刊, 2007, (20).
[26]欧阳征标. 数字电路教材改革——兼谈高等学校教材改革思路[J]. 电气电子教学学报, 2007, (S1): 45-47.
[27]王宏, 欧阳征标, 韩艳玲, 孟庆生. 四能级增益介质光子晶体激光器的时域有限差分模型与模拟[J]. 计算物理, 2007, (04): 452-456.
[28]孟庆生, 欧阳征标, 王仲淳, 吴志荣, 刘宗平, 罗贤达, 王宏. 一维光子晶体谐振腔的模式类型及其性质[J]. 光学学报, 2007, (07): 1290-1294.
[29]王宏, 欧阳征标, 韩艳玲, 钟远聪, 阮双琛. 二维随机增益介质中局域模的模面积和放大[J]. 光学学报, 2007, (07): 1295-1300.
[30]王宏, 欧阳征标, 韩艳玲, 阮双琛. 含色散介质的一维光子晶体微腔的光学特性和模式调节[J]. 光学学报, 2007, (05): 940-945.
[31]王宏, 欧阳征标, 韩艳玲, 孟庆生, 罗贤达, 刘劲松. 随机性对部分随机介质激光器阈值的影响[J]. 物理学报, 2007, (05): 2616-2622.
[32]许桂雯, 欧阳征标. 一种新型光子晶体双色谐振腔[J]. 光子学报, 2007, (03): 429-433.
[33]王宏, 欧阳征标, 韩艳玲, 孟庆生, 阮双琛. 一维光子晶体带边激光器的阈值特性分析[J]. 光学学报, 2006, (12): 1813-1818.
[34]王宏, 欧阳征标, 韩艳玲, 孟庆生, 简耀波, 罗贤达. 一维光子晶体缺陷模激光器的放大特性[J]. 光学学报, 2006, (11): 1691-1697.
[35]欧阳征标, 孟庆生, 许桂雯, 吕雅利, 孙一翎, 张登国, 阮双琛, 李景镇. 一种复合型光子晶体微谐振腔[J]. 深圳特区科技, 2005, (00): 46-50.
[36]欧阳征标,许桂雯,孙一翎,张登国,阮双琛,李景镇. 光子晶体微谐振腔的调谐特性[J]. 光电子·激光, 2005, (04): 399-401+408.
[37]欧阳征标,杨琳玲,许桂雯,阮双琛,李景镇. 一维缺陷光子晶体的模式特性研究[J]. 光电子·激光, 2005, (01): 63-66.
[38]许桂雯,欧阳征标. 三种缺陷态光子晶体的比较研究[J]. 深圳大学学报, 2004, (04): 350-355.
[39]张登国,倪娜,安鹤南,欧阳征标,许桂雯. 一维磁性光子晶体的电磁场分析和数值计算[J]. 光子学报, 2004, (08): 1007-1010.
[40]安鹤男,欧阳征标,李兴敏. 在远程教育中应用DCOM技术实现组件化的网络虚拟实验室[J]. 内蒙古民族大学学报(自然科学版), 2004, (04): 376-378.
[41]安鹤男,欧阳征标,刘春平. 多媒体CAI课件中演播控件的实现技术[J]. 教育信息化, 2004, (08): 47-48.
[42]安鹤男,欧阳征标,许桂雯,孙一翎,阮双琛,李景镇,张道中. 二维光子晶体结构参量对光子禁带特性的影响[J]. 光学学报, 2004, (06): 842-846.
[43]安鹤男,欧阳征标,刘春平. Internet与家庭网络互连的三层Web网关结构研究[J]. 电脑与电信, 2004, (Z2): 88-89.
[44]安鹤男,欧阳征标,刘春平. 利用COM组件技术开发Web应用系统[J]. 电脑与电信, 2004, (04): 96-97.
[45]欧阳征标,安鹤男,阮双琛,李景镇,张道中. 利用二维光子晶体提高波的耦合效率(英文)[J]. 光子学报, 2004, (01): 69-72.
[46]许桂雯,欧阳征标,安鹤男,孙一翎,曹建章,张登国,阮双琛,李景镇. 光子晶体缺陷模的带宽与品质因子研究[J]. 光子学报, 2003, (09): 1079-1082.
[47]黄韩娟,欧阳征标,许桂雯,安鹤男,阮双琛,李景镇. 复周期光子晶体的理想多通道滤波特性[J]. 光电子·激光, 2003, (01): 50-53.
[48]欧阳征标,李景镇,朱骏,张登国,孙一翎. 一种高效率光子晶体发光二极管[J]. 发光学报, 2002, (05): 473-476.
[49]欧阳征标,李景镇,张道中. 一维和二维系统中电子禁带与光子禁带的数学等价特性(英文)[J]. 光子学报, 2002, (07): 802-806.
[50]欧阳征标,朱骏,李景镇. 两端有慢变结构的光子晶体的能带特性研究[J]. 光学学报, 2002, (05): 612-615.
[51]欧阳征标,刘海山,李景镇. 光子晶体超窄带滤波器[J]. 光子学报, 2002, (03): 281-284.
[52]朱骏,欧阳征标,李景镇. 一类慢变周期结构光子晶体的能带特性研究[J]. 光电子·激光, 2002, (02): 136-138.
[53]符李渊,欧阳征标,李景镇. 复周期结构光子晶体的光子能带特性研究[J]. 光电子·激光, 2002, (02): 139-141.
[54]刘海山,欧阳征标,李景镇,王启明. 用于波分复用的光子晶体滤波器[J]. 光电子·激光, 2002, (02): 145-149.
[55]欧阳征标,李景镇,张道中,王启明. 多层光子晶体滤波器研究[J]. 光学学报, 2002, (01): 79-84.
[56]欧阳征标,李景镇. 光子晶体的研究进展[J]. 激光杂志, 2000, (02): 4-6.
[57]欧阳征标,李景镇,孙一翎,林敏. 短波长三维光子晶体(英文)[J]. 光子学报, 2000, (02): 112-116.
[58]欧阳征标. 奥比管的简化理论[J]. 深圳大学学报, 1992, (Z2): 9-16.
[59]欧阳征标. 关于第三宇宙速度的计算[J]. 深圳大学学报, 1992, (Z2): 94-96.
[60]于善夫,刘盛纲,徐晓曦,陈晓东,欧阳征标. 静电电子脉塞的受激辐射的实验研究[J]. 电子学报, 1992, (03): 77-79+26.
[61]欧阳征标. 负反馈放大电路的方框图分析法中的基本放大电路的输入输出端口的选择[J]. 深圳大学学报, 1991, (Z2): 50-58.
[62]欧阳征标. 奥比管的辐射机制研究[J]. 深圳大学学报, 1991, (Z1): 13-18.
[63]欧阳征标. 静电离心系统中电子的非圆轨道运动规律的数值研究[J]. 电子科学学刊, 1991, (02): 145-150.
[64]欧阳征标. 考虑空间电荷梯度效应的静电电子回旋谐振脉塞的线性理论[J]. 深圳大学学报, 1990, (Z2): 57-67.
[65]欧阳征标. 正交场摆动器自由电子激光器[J]. 深圳大学学报, 1990, (Z1): 49-53.
[66]欧阳征标. 采用静电聚束的环形自由电子激光器[J]. 电子科学学刊, 1989, (05): 528-531.
[67]于善夫,刘红秀,陈晓东,欧阳征标,刘盛纲. 静电电子回旋脉塞与静电自由电子激光[J]. 强激光与粒子束, 1989, (02): 99-117.
[68]欧阳征标. 静电电子回旋脉塞的单粒子理论[J]. 成都电讯工程学院学报, 1988, (03): 305-311.
[69]刘盛綱 ,張世昌 ,楊中海 ,陈曉东 ,欧阳征标. 静电电子回旋諧振脉塞的綫性理论[J]. 成都电讯工程学院学报, 1986, (02): 13-24.
会议论文:
[1]An, Yin-bing; Fu, Tao; Ouyang, Zheng-biao*.Fano Resonances from Quadrupole-dipole Split Mode Interference in Photonic Crystal Waveguide-single-cavity Structure.2nd International Conference on Electrical and Electronic Engineering (EEE), 2019-05-26 To 2019-05-27.
[2]Luo, Hanjun; Ouyang, Zhengbiao*; Liu, Qiang; Lu, Zhenli; Li, Bin.Detection Probability Limitation of a Pulsed Gm-APD Laser Ranging System with Turbulence Effects.Conference on LIDAR Imaging Detection and Target Recognition, 2017-07-23 To 2017-07-25.
[3]Bibbò , Luigi; Liu, Qiang; Lin, Mi; Wang, Qiong; Ouyang, Zhengbiao.Tunable perfect absorber for bio-sensin.10th Global Symposium on Millimeter-Waves, GSMM 2017, 2017-05-24 to 2017-05-26.
[4]傅涛, 安银冰 & 欧阳征标. (2016). 用于Cherenkov振荡器的光子晶体波导微腔结构研究. (eds.) 第二届全国太赫兹科学技术学术年会论文集 (pp.151-154).
[5]Fu, T.; An, Y.B.; Ouyang, Z.B.A novel Cherenkov oscillator based on microcavity in photonic crystal waveguide.2016 Progress In Electromagnetics Research Symposium, PIERS 2016, 2016-08-08 to 2016-08-11.
[6]Yuan, Yonghua; Ouyang, Zhengbiao*.All-optical switch based on nonlinear photonic crystals ring resonator.4th International Conference on Sensors, Mechatronics and Automation (ICSMA), 2016 to 2016-11-13.
[7]Chen, Zhiliang*; Ouyang, Zhengbiao; Liu, Qiang; Zheng, Yaoxian.An ultra-high sensitivity temperature sensor based on surface-plasmon polariton in metal-insulator-metal waveguide and a dynamic cavity.4th International Conference on Advanced Materials and Information Technology Processing (AMITP), 2016 to 2016-09-25.
[8]Fu, T.; An, Y.B.; Ouyang, Z.B. A novel Cherenkov oscillator based on microcavity in photonic crystal waveguide.2016-08-08 to 2016-08-11.
[9]Yogesh, N.; Yu, Quanqiang; Ouyang, Zhengbiao*.THz twist polarizer based on supramolecular fermat's spiral chiral metamaterial.PIERS 2015 PRAGUE, Czech Republic, 2015-07-06 to 2015-07-09.
[10]Yogesh, N.; Yu, Quanqiang; Ouyang, Zhengbiao*.Demonstration of multi-beam microwave heating based on the wave confinement of hexagonal photonic crystal multilayered cavity.PIERS 2015 PRAGUE, Czech Republic, 2015-07-06 to 2015-07-09.
[11]Zhang, Dengguo; Wang, Yong; Huang, Tan; Ouyang, Zhengbiao.Low-loss Y-junction two-dimensional magneto-photonic crystals circulator using a ferrite cylinder.IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications, IEEE MTT-S IMWS-AMP 2015, 2015-07-01 to 2015-07-03.
[12]Zhang, Dengguo; Wang, Yong; Huang, Tan; Ouyang, Zhengbiao.Low-loss Y-junction two-dimensional magneto-photonic crystals circulator using a ferrite cylinder.2015-07-01 to 2015-07-03.
[13]Guohua Wen; Mi Lin; Yogesh Natesan; Zhengbiao Ouyang*.TE-optical switch based on modification of photonic bandgaps in photonic crystals.2014 IEEE Workshop on Advanced Research and Technology in Industry Applications (WARTIA), Canada, 2014-09-29 to 2014-09-30.
[14]Guohua Wen; Zhengbiao Ouyang*.A two-dimensional square-lattice photonic crystal with rotated square cylinders and cross thin plates exhibiting wide photonic bandgap.CA3M2014: Optical and Magnetic Materials, Semiconductors and Technology , China,Guangdong,Shenzhen, 2014-08-23 to 2014-08-24.
[15]Jingjing Wang; Zhengbiao Ouyang*; Guohua Wen; Hao Huang; Mi Lin; Qiong Wang.Wide absolute-photonic-bandgap 2D square-lattice photonic crystal based on hollow cylinders and cross connecting plates.ICA3M2014: Optical and Magnetic Materials, Semiconductors and Technology , China,Guangdong,Shenzhen, 2014-08-23 to 2014-08-24.
[16]Wen, Guohua; Lin, Mi; Yogesh, Natesan; Ouyang, Zhengbiao*.TM-optical switch based on modification of photonic band gaps in photonic crystals.2014-09-29 to 2014-09-30.
[17]Liu, Qiang; Ouyang, Zhengbiao; Albin, Sacharia.A new method to improve the sensitivity of THz sensor based on combined photonic crystal microcavities.Optical Sensors, Sensors 2013, Puerto Rico, 2013-07-14 to 2013-07-17.
[18]张登国, 王一鹏, 欧阳征标, 李景镇 & 林密. (2013). 二维磁性光子晶体光环行器分析. (eds.) 2013年全国微波毫米波会议论文集 (pp.118-121).
[19]Qi, Chunchao1, 2, 3*; Ouyang, Zhengbiao1, 2, 3.A controlled frequency-shifted feedback loop for generation of widely tunable coherent Terahertz waves.Laser and Tera-Hertz Science and Technology, LTST 2012, China, 2012-11-01 to 2012-11-02.
[20]Sesay, Maurice1; Xin, Jin1; Ouyang, Zhengbiao1.Polarization beam splitter based on internal coupled rods in a square-lattice photonic crystal.Information Optoelectronics, Nanofabrication and Testing, IONT 2012, China, 2012-11-01 to 2012-11-02.
[21]Kaijage, Shubi F.1; Ouyang, Zhengbiao1.Low-loss photonic crystal fiber for transmission of terahertz waves.Laser and Tera-Hertz Science and Technology, LTST 2012, China, 2012-11-01 to 2012-11-02.
[22]Zhang, Deng-Guo1*; Wang, Yi-Peng1; Ouyang, Zheng-Biao1; Lin, Mi1.On the analysis of two-dimensional magnetic-photonic crystal circulator in microwave band.2012 International Conference on Microwave and Millimeter Wave Technology, ICMMT 2012, 2012-05-05 to 2012-05-08.
[23]Tao, K.; Qiu, G.; Chen, H.; Zhai, J.; Li, L.; Ouyang, Z.*.A new kind of unidirectional waveguides.2011 2nd International Conference on Mechanic Automation and Control Engineering, MACE 2011, China, 2011-07-15 to 2011-07-17.
[24]Wang, Qiong*; Yu, Quanqiang; Ouyang, Zhengbiao; Zhang, Lingling; Cui, Yiping.Highly directional emission from multi-channel photonic crystal via beam splitting.2011 International Conference on Information and Automation, ICIA 2011, China, 2011-06-06 to 2011-06-08.
[25]欧阳征标, 张式渊 & 许桂雯. (2011). 基于光子晶体非线性谐振腔的光学逻辑非门研究. (eds.) 中国光学学会2011年学术大会摘要集 (pp.625).
[26]郑国梁, 欧阳征标 & 徐世祥. (2011). 温度不敏感Solc型电光滤波器. (eds.) 中国光学学会2011年学术大会摘要集 (pp.495).
[27]Chih Jung Wu; Qiang Liu; Chung Ping Liu; Jong C. Wang; Zhengbiao Ouyang*.A Combined Cavity with Improved Performance under Simultaneous Resonance of Sub-cavities.Progress in Electromagnetics Research Symposium (PIERS 2010, xI'AN CHINA), Proceedings of PIERS 2010 in Xi'an [PIERS Online, 6(5): 406-410, 2010] , China, 2010-03-22 to 2010-03-26.
[28]Keyu Tao; Gaoxin Qiu; Guoliang Zheng; Qiang Liu; Ling Li; Zhengbiao Ouyang*.Terahertz subwavelength filter based on a 2D lattice of metal wires.International Conf. on Light Localization and Photonic Band Gaps, China, 2010-01-03 to 2010-01-06.
[29]林密; 欧阳征标*; 徐军.单负材料一维光子晶体的反射相位特性, 交流报告, 广东省光学学会-2009年学术交流大会 ,2009.12.18-20,东莞市.广东省光学学会-2009年学术交流大会, 中国,广东省,东莞市, 2009-12-18至2009-12-20.
[30]曹恩文; 欧阳征标*; 李成宽.光子晶体双频正交偏振激光器谐振腔, 交流报告, 广东省光学学会-2009年学术交流大会,2009.12.18-20,东莞市.广东省光学学会-2009年学术交流大会, 中国,广东省,东莞市, 2009-12-18至2009-12-20.
[31]曹恩文; 欧阳征标*; 余铨强.光子晶体多通道窄带滤波器通道间隔的均匀化.广东省光学学会-2009年学术交流大会, 中国,广东省,东莞市, 2009-12-18至2009-12-20.
[32]Zhengbiao Ouyang*; Qiang Liu; Guiwen Xu; Qiong Wang; Kefeng Liu; Qizhi Xie.Recent Researches on Photonic Logic Elements and Circuits Based on Photonic Crystals in Shenzhen University.广东省光学学会-2009年学术交流大会, China,Guangdong,Dongguan, 2009-12-18 to 2009-12-20.
[33]Zhengbiao Ouyang*; Qiang Liu; Guiwen Xu; Qiong Wang; Kefeng Liu; Qizhi Xie.Photonic Logic Elements and Circuits Based on Photonic Crystals.SICAST2009(2009 Shenzhen International Conf. of Advanced Sci. & Technol.: Application of Tera-Herthz Sci. & Technol.) , China,Guangdong,Shenzhen, 2009-11-15 to 2009-11-20.
[34]Yi, Peng Wang; Deng, Guo Zhang; Zhou, Hui; Zheng, Biao Ouyang.Error analysis of one-dimensional magneto-photonic crystals used as Faraday rotators.2009 Symposium on Photonics and Optoelectronics, SOPO 2009, China, 2009-08-14 to 2009-08-16
[35]Mao, Depeng; Ouyang, Zhengbiao; Zhong, Yuancong.Realization of super narrow pass-band and super narrow transmission-angle filters with one-dimensional defective photonic crystal hetero-structures - art. no. 68311D.2nd Conference on Nanophotonics, Nanostructure and Nanometrology, 2007-11-12 to 2007-11-14.
[36]Depeng, Mao*; Zhengbiao, Ouyang; Yuancong, Zhong.Realization of super narrow pass-band and super narrow transmission-angle filters with one-dimensional defective photonic crystal hetero-structures.Nanophotonics, Nanostructure, and Nanometrology II, 2007-11-12 to 2007-11-14.
[37]Ouyang, Zhengbiao*; Luo, Xi; a; Wang, Jong C.; Liu, Chung Ping; Wu, Chih Jung. A combined cavity for high sensitivity THz signal detection.Terahertz Photonics, China, 2007-11-12 to 2007-11-14.
[38]Han, Yanling*; Wang, Hong; Ouyang, Zheng Biao.Threshold behavior of defect modes in one-dimensional active photonic crystal.Nanophotonics, Nanostructure, and Nanometrology II, 2007-11-12 to 2007-11-14.
[39]Han, Yanling*; Wang, Hong; Ouyang, Zheng Biao.Dispersion-induced localized modes in weakly random media.Nanophotonics, Nanostructure, and Nanometrology II, 2007-11-12 to 2007-11-14.
[40]许桂雯 & 欧阳征标. (2007). 保持光子禁带不分裂的膜层允许缺陷. (eds.) 2007年中国青年光学学术研讨会论文摘要集 (pp.90-97).
[41]钟远聪, 欧阳征标, 王宏, 孟庆生 & 罗贤达. (2007). 一维缺陷光子晶体中光子局域特性分析. (eds.) 2007年中国青年光学学术研讨会论文摘要集 (pp.98-108).
[42]王仲淳, 徐国豪, 欧阳征标 & 吴志荣. (2006). 绿色照明产品(LED)与光子晶体之潜在效益. (eds.) 海峡两岸第十三届照明科技与营销研讨会专题报告暨论文集 (pp.216-222).
[43]王宏, 欧阳征标, 韩艳玲, 钟远聪 & 阮双琛. (2006). 一维光子晶体激光器中缺陷模的模面积及其对阈值的影响. (eds.) 中国光学学会2006年学术大会论文摘要集 (pp.86-87).
[44]欧阳征标, 孟庆生 & 罗贤达. (2006). 一维缺陷态光子晶体缺陷模的模式规律. (eds.) 中国光学学会2006年学术大会论文摘要集 (pp.273-274).
[45]钟远聪, 王宏, 欧阳征标, 孟庆生, 罗贤达 & 毛德鹏. (2006). 一维光子晶体激光器局域化长度的优化. (eds.) 中国光学学会2006年学术大会论文摘要集 (pp.289).
[46]许桂雯 & 欧阳征标. (2006). 一种可实现正负色散补偿的缺陷态光子晶体. (eds.) 中国光学学会2006年学术大会论文摘要集 (pp.308).
[47]王宏, 欧阳征标, 韩艳玲, 钟远聪 & 阮双琛. (2006). 一维光子晶体激光器中缺陷模的模面积及其对阈值的影响. (eds.) 中国光学学会2006年学术大会论文摘要集 (pp.325).
[48]欧阳征标, 孟庆生 & 罗贤达. (2006). 矩形柱-多层膜复合式二维光子晶体微谐振腔. (eds.) 中国光学学会2006年学术大会论文摘要集 (pp.338).
[49]王宏, 欧阳征标, 韩艳玲, 钟远聪 & 阮双琛. (2006). 一维光子晶体激光器中缺陷模的模面积及其对阈值的影响. (eds.) 中国光学学会2006年学术大会论文摘要集 (pp.373-374).
[50]Ouyang, Zhengbiao*; Cai, Yanyan; Meng, Qingsheng; Lu, Yali; Sun, Yiling; Zhang, Dengguo; Ruan, Shuangchen; Li, Jingzhen.Huge group-velocity dispersion in a photonic crystal - art. no. 60200U.Conference on Optoelectronic Materials and Devices for Optical Communications, 2005-11-07 to 2005-11-10.
[51]Ouyang, Zhengbiao*; Meng, Qingsheng; Lu, Yali; Sun, Yiling; Zhang, Dengguo; Ruan, Shuangchen; Li, Jingzhen.A kind of planar photonic crystal micro-cavity - art. no. 602030.Conference on Optoelectronic Materials and Devices for Optical Communications, 2005-11-07 to 2005-11-10.
[52]Ouyang, Zhengbiao*; Sun, Yiling; Zhang, Dengguo; Cao, Jianzhang; Ruan, Shuangchen; Li, Jingzhen.A complex photonic crystal cavity with improved properties of optical filtering.Semiconductor and Organic Optoelectronic Materials and Devices, 2004-11-09 to 2004-11-11.
[53]欧阳征标, 安鹤男, 朱骏, 李景镇 & 阮双琛. (2002). 慢变晶格结构光子晶体的能带特性研究. (eds.) 2002年中国光学学会年会论文集 (pp.114-116).
[54]李景镇 & 欧阳征标. (2001). 光子晶体研究进展. (eds.) 第九届全国光学测试学术讨论会论文(摘要集) (pp.31).
[55]欧阳征标, 刘海山 & 李景镇. (2001). 光子晶体超窄带滤波器. (eds.) 第九届全国光学测试学术讨论会论文(摘要集) (pp.68).
[56]欧阳征标, 李景镇, 朱骏, 张登国 & 孙一翎. (2001). 高效率光子晶体发光二极管的研究. (eds.) 第九届全国发光学术会议摘要集 (pp.281).
[57]符李渊, 欧阳征标 & 李景镇. (2001). 复周期结构光子晶体的光子能带特性研究. (eds.) Photonic Crystal (Ⅱ)--Proceedings of CCAST (World Laboratory) Workshop (pp.74-79).
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