太赫茲超表面的理論基礎(chǔ)與應用

第1 章 超材料與超表面概述
1.1　超材料的發(fā)展及應用
1.2　超表面簡介
1.2.1　從超材料到超表面
1.2.2　超表面的研究現(xiàn)狀
1.3　太赫茲技術(shù)及太赫茲超表面
1.3.1　太赫茲技術(shù)概述
1.3.2　太赫茲超表面器件的研究進展
本章參考文獻
第2 章 超表面光場調(diào)控基本理論
2.1　基于等效媒質(zhì)理論的傳輸相位調(diào)控
2.1.1　周期結(jié)構(gòu)的模式展開分析法
2.1.2　零階和高階等效媒質(zhì)理論
2.1.3　有限厚度等效媒質(zhì)的薄膜理論
2.1.4　等效媒質(zhì)的傳輸相位
2.2　基于電路模型的諧振相位調(diào)控 
2.2.1　介質(zhì)平板的傳輸線電路模型
2.2.2　單層及多層金屬超表面的等效電路模型
2.3　基于Mie 散射的諧振相位調(diào)控
2.4　幾何相位調(diào)控
2.5　偏振調(diào)控理論
2.6　基于廣義斯涅耳定律的波前調(diào)控理論
2.7　波前的遠場近場變換理論
2.7.1　菲涅耳衍射理論
2.7.2　格林函數(shù)法
本章參考文獻
第3 章 超表面的設計及優(yōu)化方法 
3.1　參數(shù)遍歷方法
3.2　基于優(yōu)化算法的逆向結(jié)構(gòu)設計
3.2.1　基于梯度的優(yōu)化算法
3.2.2　無梯度優(yōu)化算法
3.3　基于深度學習的結(jié)構(gòu)設計
3.3.1　深度學習神經(jīng)網(wǎng)絡概述
3.3.2　神經(jīng)網(wǎng)絡的基本結(jié)構(gòu)
3.3.3　全連接神經(jīng)網(wǎng)絡
3.3.4　卷積神經(jīng)網(wǎng)絡
3.3.5　深度學習輔助超表面優(yōu)化設計實例
本章參考文獻
第4 章 太赫茲超表面的加工方法與實驗表征系統(tǒng)
4.1　太赫茲超表面的常用加工方法
4.1.1　光刻與刻蝕
4.1.2　飛秒激光微納加工
4.1.3　3D 打印
4.2　太赫茲時域光譜表征系統(tǒng)
4.3　太赫茲超表面的偏振光場表征系統(tǒng)
4.4　太赫茲成像系統(tǒng)
4.4.1　連續(xù)波太赫茲成像系統(tǒng)
4.4.2　脈沖太赫茲非掃描式成像系統(tǒng)
4.4.3　太赫茲單像素成像系統(tǒng)
本章參考文獻 
第5 章 太赫茲波前調(diào)控器件 ·······························································91
5.1　太赫茲定向波束發(fā)射器件 ························································91
5.1.1　超光柵的模式分析與優(yōu)化設計·········································91
5.1.2　定向發(fā)射器的實驗測試與討論 ········································96
5.2　太赫茲波束掃描器件 ······························································98
5.2.1　波束掃描器件結(jié)構(gòu)························································98
5.2.2　一維波束掃描的測試與分析·········································· 100
5.2.3　三維空間波束掃描的實驗測試······································· 102
5.2.4　角度自適應的動態(tài)回射器············································· 104
5.3　太赫茲超透鏡 ····································································· 106
5.3.1　非局域衍射波前調(diào)控理論············································· 106
5.3.2　太赫茲大數(shù)值孔徑平面柱透鏡的理論與實驗研究 ·············· 108
5.3.3　太赫茲大數(shù)值孔徑三維聚焦超透鏡的設計與成像研究 ········ 111
5.4　太赫茲全息成像 ································································· 112
5.4.1　用于全息成像的太赫茲電介質(zhì)超表面的理論設計 ·············· 112
5.4.2　太赫茲電介質(zhì)全息超表面的加工及實驗驗證 ···················· 115
本章參考文獻 ··········································································· 116
第6 章 太赫茲偏振調(diào)控器件 ····························································· 118
6.1　3D 打印的太赫茲寬帶偏振控制器件 ········································ 118
6.1.1　基于超光柵的太赫茲寬帶半波片···································· 118
6.1.2　寬帶太赫茲矢量波束發(fā)生器·········································· 124
6.2　基于超薄金屬微結(jié)構(gòu)的太赫茲偏振控制器 ································· 128
6.2.1　超薄金屬偏振控制超表面單元設計································· 128
6.2.2　矢量光和矢量渦旋光超表面的設計與理論分析 ················· 132
6.2.3　矢量光超表面的制備與實驗測試···································· 136
6.3　基于石墨烯的太赫茲動態(tài)偏振控制器件 ···································· 138
6.3.1　基于石墨烯—介質(zhì)復合超表面的雙功能太赫茲偏振控制器 ·· 138
6.3.2　 基于石墨烯—介質(zhì)復合超表面的寬帶可調(diào)諧太赫茲偏振控
制器 ········································································ 144
本章參考文獻 ··········································································· 148
第7 章 太赫茲多功能集成超表面 ······················································· 150
7.1　頻率復用的獨立偏振與波前調(diào)控器件 ······································· 150
7.1.1　雙波段雙功能波片的理論設計與分析······························ 150
7.1.2　雙波段雙功能波片的加工與實驗測試······························ 157
7.1.3　雙波段太赫茲超透鏡的設計與實驗論證 ·························· 158
7.2　角度復用的偏振與波前調(diào)控器件
7.2.1　一維介質(zhì)光柵的角度色散機理分析
7.2.2　角度復用的波前調(diào)控器件
7.2.3　角度復用的多功能偏振調(diào)控器件
本章參考文獻
第8 章 太赫茲超表面放大器件
8.1　石墨烯在太赫茲波段的光泵浦特性
8.2　基于石墨烯—介質(zhì)復合超表面的反射式太赫茲放大器
8.2.1　單層石墨烯的增益特性分析
8.2.2　高Q 值反射式介質(zhì)超表面的結(jié)構(gòu)及響應
8.2.3　石墨烯—介質(zhì)反射超表面的反射式光放大結(jié)果
8.2.4　太赫茲波放大的物理機制
8.3　基于石墨烯—介質(zhì)超表面的透射式太赫茲放大器 
8.3.1　多層石墨烯與高Q 值介質(zhì)諧振腔的獨立分析
8.3.2　超表面的太赫茲波放大性能分析
本章參考文獻 
第9 章 太赫茲超表面生物傳感
9.1　活性細胞增殖的太赫茲圓二色性傳感研究
9.1.1　超光柵傳感器的性能研究
9.1.2　HepG2 肝癌細胞增殖抑制傳感 
9.1.3　三種肝癌細胞的圓二色性譜差異
9.2　氨基酸水溶液的手性傳感 
9.2.1　螺旋形手性超表面?zhèn)鞲衅鞯男阅苎芯?br />9.2.2　脯氨酸、丙氨酸和酪氨酸溶液的濃度傳感 
9.2.3　氨基酸手性異構(gòu)體溶液的手性鑒別、
本章參考文獻