Chu Shi-Wei, Tai Shih-Peng, Chan Ming-Che, Sun Chi-Kuang, Hsiao I-Ching, Lin Chi-Hung, Chen Yung-Chih, Lin Bai-Ling
Opt Express. 2007 Sep 17;15(19):12005-10. doi: 10.1364/oe.15.012005.
Simultaneous backward and forward second harmonic generations from isolated type-I collagen matrix are observed. Optical interference behaviors of these nonlinear optical signals are studied with accurately determined fibril thickness by an atomic force microscope. The nonlinear emission directions are strongly dependent on the coherent interaction within and between collagen fibrils. A linear relationship is obtained to estimate collagen fibril thickness with nanometer precision noninvasively by evaluating the forward/backward second harmonic generation ratio.
观察到从孤立的I型胶原基质同时产生向后和向前的二次谐波。利用原子力显微镜精确测定原纤维厚度,研究了这些非线性光学信号的光学干涉行为。非线性发射方向强烈依赖于胶原原纤维内部和之间的相干相互作用。通过评估向前/向后二次谐波产生比率,获得了一种线性关系,用于以纳米精度无创地估计胶原原纤维厚度。