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撒母耳記衣服母題之探析

為了解決Ruler bar ig的問題，作者張雅玲 這樣論述：

本論文分析撒母耳記各段敘事中衣服母題的運用，及其所帶來的效果。透過探討撒母耳記中出現的衣服記載，明白敘事者隱藏在衣服母題下的意涵與神學思考。因此，筆者首先將整卷撒母耳記關於衣服的相關經文標示出來，接著觀察這些衣服記載在經文中是否具有特別的用意。再透過上下文與形式結構，分析衣服相關記載母題的運用。研究衣服母題對於敘事事件或情節的文學性與藝術價值，並萃取出敘事者欲表達的觀念或神學意義。透過撒母耳幼年敘事中的「以弗得」，除了顯示祭司的身份外，這個衣服母題另外隱含著敬虔的家庭帶出敬虔後裔的重要意義。而掃羅作王期間的經文段落，不論是透過「衣襟斷裂」預吿掃羅王國的沒落，或者藉由「戰衣」母題呈現的身份地位

的轉移或轉讓，衣服母題不但強化整個情節的張力，也提醒讀者上帝的全知與全能。最後，在大衛作王前與作王後的敘事裡，衣服母題的運用，將敘事者隱藏在經文裡的意涵與神學思考完美的呈現，更增添聖經敘事的藝術價值。整卷撒母耳記經文包含衣服元素的描述共有三十八處。每個衣服母題段落的敘事，增添讀者對聖經文學的賞析。如故事劇般的敘事特色，與衣服母題的巧妙安排，使撒母耳記敘事宛如一部藝術作品。而敘事者隱藏在衣服母題的神學意涵，提醒上帝的兒女，祂是全知全能、永遠活著，並掌管萬有。

偏振量測與光子計數之受激放射泵探針顯微術

為了解決Ruler bar ig的問題，作者雷 武 這樣論述：

This doctoral dissertation focuses on two parts; the first part demonstrates the polarization-resolved (PR) stimulated emission pump-probe microscopy, and the second part represents the implementation of photon-counting based stimulated emission pump-probe microscopy. We have realized the polarizat

ion-resolved fluorescence lifetime measurements through stimulated emission pump-probe (stimulated gain (SG) and stimulated spontaneous loss (SSL)). SG is applied to realize the polarization-resolved fluorescence lifetime measurement through stimulated emission, which promises much higher temporal

resolution (~4 ps) than conventional time-correlated single-photon counting (TCSPC). The rotational correlation time (RCT) and polarization anisotropy (PA) of ATTO 647N dye are characterized via various temperatures. The results reveal the need for high temporal resolution via hetero Förster energy

transfer (Hetero-FRET) through the interaction between the gold nanorods (GNRs) and the fluorescent dye ATTO 647N. Notably, our results highly favourable with the conventional TCSPC method, which is rather limited in temporal resolution, for the above characterization. Additionally, this technique i

s applicable even under ambient light while being very cost-effective and robust.Furthermore, SSL demonstrates the contrast enhancement through polarization-resolved pump-probe microscopy, implemented by measuring the spontaneous fluorescence loss induced by stimulated emission. The pump-probe lifet

ime measurement technique has been compared with conventional fluorescence polarization microscopy. The anisotropy values thus obtained are 0.11 and 0.01, respectively. The contrast improvement is attributed to the multiphoton mechanism in sharpening the point-spread function and the polarization re

solving. Also, the pump-probe technique promises higher temporal resolution in lifetime measurements than TCSPC, enabling more precise determination of the fluorescent molecules' rotational diffusion time constant, often in the sub-nanosecond regime.To overcome the limitation of analogue measurement

s in SSL, photon-counting based stimulated emission pump-probe microscopy is employed through time-correlated single-photon counting (TCSPC). The experimental measured stimulated photons quenching efficiency is compared with theoretical photon statistics. The accurate fluorescence lifetime measureme

nts of ATTO 647N indicates the effectiveness of this method. Notably, atomic calculations are used to obtain absolute cross-sections. Thus absorption and stimulated emission cross-sections values are obtained _abs  1.31〖×10〗^(-16) 〖cm〗^2 and _SE  2.42〖×10〗^(-17) 〖cm〗^2, respectively. Furthermor

e, the stimulated emission (SE) cross-section decreases linearly with the increase of stimulated laser power. In addition, the SE-PPM technique promises digital signal processing (an alternative to analogue detection), enabling background-free imaging.