Combined Apertureless Near-Field Optical Second-Harmonic Generation/Atomic Force Microscopy Imaging and Nanoscale Limit of Detection

KENT A. MEYER; KIN C. NG; ZHANJUN GU; ZHENGWEI PAN; WILLIAM B. WHITTEN; ROBERT W. SHAW

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Combined Apertureless Near-Field Optical Second-Harmonic Generation/Atomic Force Microscopy Imaging and Nanoscale Limit of Detection

机译：组合无孔近场光学二次谐波产生/原子力显微镜成像和纳米级检测极限

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A dual function atomic forceear-field scanning optical microscope (AFM/NSOM) with an ultrafast laser excitation source was used to investigate apertureless, tip enhanced second-harmonic generation (SHG) of ZnO nanowires with spatial resolution below the optical diffraction limit. Single-wire SHG spectra show little to no contribution from bandgap or other emission. Polarization data established values for (chi)_(33)/(chi)_(31) close to previous estimates and confirm the SHG process. Experimental results indicate that the SHG signal was reduced for nanowires after exposure to an atmosphere of carbon dioxide and water vapor. An equation was derived for estimating the minimum (chi)~(2) detectable using apertureless SHG NSOM.

机译：具有超快激光激发源的双功能原子力/近场扫描光学显微镜（AFM / NSOM）用于研究空间分辨率低于光学衍射极限的ZnO纳米线的无孔径，尖端增强的二次谐波生成（SHG）。单线SHG光谱显示带隙或其他发射几乎没有贡献。极化数据确定（chi）_（33）/（chi）_（31）的值接近先前的估计值，并确认SHG过程。实验结果表明，纳米线暴露于二氧化碳和水蒸气的气氛后，SHG信号降低。推导了用于估计使用无孔SHG NSOM可检测到的最小（chi）〜（2）的方程。

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《Applied Spectroscopy: Society for Applied Spectroscopy》 |2010年第1期|共7页
作者
KENT A. MEYER; KIN C. NG; ZHANJUN GU; ZHENGWEI PAN; WILLIAM B. WHITTEN; ROBERT W. SHAW;
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正文语种 eng
中图分类光谱学;
关键词
Apertureless; Near-field; NSOM; Second-harmonic generation; SHG; Tip enhancement; Nonlinear; Zinc oxide; Nanowire; Nanorod; Surface; Degradation; Passivation; Carbonate;

机译：无孔;近场;NSOM;二次谐波产生;SHG;尖端增强;非线性;氧化锌;纳米线;纳米棒;表面;降解;钝化;碳酸盐;

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专利

1. Combined Apertureless Near-Field Optical Second-Harmonic Generation/Atomic Force Microscopy Imaging and Nanoscale Limit of Detection [J] . Applied Spectroscopy . 2010,第1期

机译：组合无孔近场光学二次谐波产生/原子力显微镜成像和纳米级检测极限
2. Apertureless near-field optical microscopy via local second-harmonic generation [J] . Zayats AV., Sandoghdar V. Journal of Microscopy . 2001,第Pta1期

机译：通过局部二次谐波产生的无孔近场光学显微镜
3. Simultaneous detection of near-field topographic and fluorescence images of human chromosomes via scanning near-field optical/atomic-force microscopy (SNOAM). [J] . Iwabuchi S, Muramatsu H, Chiba N, Nucleic Acids Research . 1997,第8期

机译：通过扫描近场光学/原子力显微镜（SNOAM）同时检测人类染色体的近场地形图和荧光图像。
4. Micromachined aperture probe for combined atomic force and near-field scanning optical microscopy (AFM/NSOM) [C] . Dietrich Drews, Institute of Microtechnology Mainz GmbH, Mainz Hechtsheim, Conference on materials and device characterization in micromachining . 1998

机译：结合原子力和近场扫描光学显微镜（AFM / NSOM）的微加工孔径探针
5. Apertureless near-field optical microscopy for fluorescence imaging. [D] . Lessard, Guillaume. 2003

机译：无孔近场光学显微镜用于荧光成像。
6. Simultaneous detection of near-field topographic and fluorescence images of human chromosomes via scanning near-field optical/atomic-force microscopy (SNOAM). [O] . S Iwabuchi, H Muramatsu, N Chiba, 1997

机译：通过扫描近场光学/原子力显微镜（SNOAM）同时检测人类染色体的近场地形图和荧光图像。
7. Simultaneous detection of near-field topographic and fluorescence images of human chromosomes via scanning near-field optical/atomic-force microscopy (SNOAM). [O] . Iwabuchi, S, Muramatsu, H, Chiba, N, 1997

机译：通过扫描近场光学/原子力显微镜（SNOAM）同时检测人类染色体的近场地形图和荧光图像。

Combined Apertureless Near-Field Optical Second-Harmonic Generation/Atomic Force Microscopy Imaging and Nanoscale Limit of Detection

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