High Resolution, Near-Field Scanning Probe Acoustic Microscopy with Low Frequency and its Applications to Ferroelectrics and Other Related Materials

机译：高分辨率，近场扫描探针声学显微镜，低频及其应用于铁电和其他相关材料

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Low-frequency (below 100 kHz, even down to several kHz) near-field scanning probe acoustic microscopy (SPAM) was successfully developed based on the commercial atomic force microscope, providing a subsurface depth profile information and as well as nanoscale spatial resolution up to several run. SPAM was successfully used to image locally domain configurations of ferroelectric materials and subsurface structures of other materials (like amorphous films, etc.) Ferroelectric domain structures and the buried structures were clearly visualized by scanning probe acoustic microscopy. The acoustic imaging origin is discussed in terms of interaction between the excited acoustic wave and local structures beneath the SPAM tip. It is expected that the scanning probe acoustic microscopy in application to ferroelectrics and other materials undoubtedly enrich our understanding the nature of ferroelectricity and elasticity at submicro-, even nano-meter scale.

机译：基于商业原子力显微镜，成功开发了低频率（低于100kHz，甚至降至几kHz）近场扫描探针声学显微镜（垃圾邮件），提供了地下深度剖面信息，以及纳米级空间分辨率几次运行。垃圾邮件成功地用于图像通过扫描探针声学显微镜清晰可视化铁电材料和其他材料（如非晶膜等）的局部结构域配置和其他材料（如非晶膜等）的掩埋结构。在垃圾邮件下方的激发声波和局部结构之间的相互作用方面讨论了声学成像原点。预计扫描探针声学显微镜应用于铁电和其他材料无疑是丰富我们理解铁亚微米的铁电性和弹性的性质。

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《China-Korea joint workshop on ultrasonic nondestructive evaluation》|2009年||共9页
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作者
Qingrui Yin; Huarong Zeng; Jiangtao Zeng; Kunyu Zhao; Guorong Li;
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正文语种
中图分类超声控制与检测;
关键词
near-field; acoustic microscopy; AFM; ferroelectric domain;

机译：近场;声学显微镜;AFM;铁电域;

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1. High resolution, near-field scanning probe acoustic microscopy with low frequency and its applications to ferroelectrics and other related materials [J] . ZENG Huarongi, LIU Liming, ZHAO Kunyu, 声学学报：英文版 . 2010,第004期

机译：低频高分辨率近场扫描探针声学显微镜及其在铁电和其他相关材料中的应用
2. Simultaneous elastic and electromechanical imaging by scanning probe microscopy: Theory and applications to ferroelectric and biological materials [J] . J. Shin, B. J. Rodriguez, A. P. Baddor, Journal of Vacuum Science & Technology. B, Microelectronics and Nanometer Structures . 2005,第5期

机译：通过扫描探针显微镜同时进行弹性和机电成像：铁电和生物材料的理论和应用
3. Nanoelectromechanics of piezoelectric indentation and applications to scanning probe microscopies of ferroelectric materials [J] . Karapetian E, Kachanov M, Kalinin SV Philosophical magazine: structure and properties of condensed matter . 2005,第10期

机译：压电压痕的纳米机电及其在铁电材料探针显微扫描中的应用
4. High Resolution, Near-Field Scanning Probe Acoustic Microscopy with Low Frequency and its Applications to Ferroelectrics and Other Related Materials [C] . Qingrui Yin, Huarong Zeng, Jiangtao Zeng, 2nd China-Korea joint workshop on ultrasonic nondestructive evaluation : Program amp; articles . 2009

机译：低频高分辨率近场扫描探针声显微技术及其在铁电和其他相关材料中的应用
5. Scanning Probe Microscopy and Electrical Transport Studies of Ferroelectric Thin Films and 2D van der Waals Materials [D] . Xiao, Zhiyong. 2017

机译：铁电薄膜和二维范德华材料的扫描探针显微镜和电传输研究
6. Scanning Kelvin Probe Microscopy: Challenges and Perspectives towards Increased Application on Biomaterials and Biological Samples [O] . Marco Salerno, Silvia Dante 2018

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7. Simultaneous elastic and electromechanical imaging by scanning probe microscopy: Theory and applications to ferroelectric and biological materials [O] . Shin, J., Rodriguez, Brian J., Baddorf, A. P., 2005

机译：通过扫描探针显微镜同时进行弹性和机电成像：铁电和生物材料的理论和应用
8. Carbon Nanotube Tip Probes: Stability and Lateral Resolution in Scanning Probe Microscopy and Application to Surface Science to Semiconductors [R] . Nguyen, Cattien V., Chao, Kuo-Jen, Stevens, Ramsey M. D., 2001

机译：碳纳米管尖端探针：扫描探针显微镜中的稳定性和横向分辨率以及半导体表面科学的应用

High Resolution, Near-Field Scanning Probe Acoustic Microscopy with Low Frequency and its Applications to Ferroelectrics and Other Related Materials

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