本論文的研究主要在於改善感光高分子材料的全像記錄特性(繞射效率、動態儲存 範圍)的提升,藉由光學特性分析與化學分析,瞭解了所製備材料的優缺點與改善的方 向。
因此在本章節對於前面章節的研究所得的結果進行總結。
1.以PQ/Poly(HEMA-co-MMA) 系統的感光高分子,在混摻鑭系有機金屬化合物
加入後,全像記錄的特性繞射效率與動態範圍M#次序為:Lu(ac)3 > Yb(ac)3 > Er(ac)3
> PQ > Nd(ac)3 > Ce(ac)3。體積全像特性增加的趨勢與原子序(atomic number)增 加次序是一致(Lu>Yb>Er>Nd>Ce)與金屬離子半徑的次序相反(Lu3+ <Yb3+<Er3+< Nd3+ <Ce3+)。混摻Lu(ac)3感光高分子的繞射效率與動態範圍M#提升 3.4 倍與 2 倍。在 FTIR與XPS 等光譜的分析下,發現了Lu(ac)3分子在曝光的過程中會與PQ 分子產生光
化學反應,而使Lu(ac)3
2. 以 PQ/PMMA 系統的感光高分子,在混摻非線性光學有機材料 DMNA 後,用紅
光雷射 647nm 對 2mm 厚的 DMNA:PQ/PMMA 感光高分子進行全像記錄其繞射效率最 大值~43%,其布拉格角度選擇率也非常接近理論預測的 sinc 平方函數;全像光學圖 /PQ/Poly(HEMA-co-MMA)感光高分子的全像記錄特性提升,
也使用UV-VIS和CV圖譜解釋了M#增加的原因。
76
案具有非常好的重建影像品質。這些實驗結果都說明了 DMNA:PQ/PMMA 感光高分子 在沒有紅光吸收的波段,其材料敏感度延伸到不吸收的紅光波段,此材料也可利於應用 在較長波段的體積全像應用上。
對於未來的研究方向,非線性光學有機分子是一個相當有趣的主題,應用於全像 材料上說不一定會有意外的收穫。第一:現有的材料 DMNA:PQ/PMMA 感光高分子可 以嘗試用 1064nm pulse laser 進行全像記錄;另外也可以混摻其他非線性光學有機分 子,如 N,N-diethyl-4-nitroaniline(DEMA)、N-cyanomethyl-N-methyl-4-nitroaniline(CMNNA) 與 p-nitroaniline(NA)於 PQ/PMMA 感光高分子,使用紅光雷射 647nm 記錄並探討之。
77
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