CHARACTERIZATION OF THIN BIOLOGICAL TISSUE WITH SCANNING ACOUSTIC MICROSCOPY

机译：扫描声波显微镜表征薄型生物组织

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The present article reports a technique to measure velocity of a biological specimen, wherein the thickness of the biological specimen and the diameter of the measurement area of the specimen are in the order of a few microns. The kidney was selected for the specimen as an example of the soft material. The kidney was thinly sliced by a microtome and located on a substrate. The thickness of the specimen was substantially 3 μm. For the substrate, fused quartz was used because its elastic properties are known and stable. The spherical acoustic lens was used to determine the position for the measurement. The frequencies of 400 and 600 MHz were used for the measurement and the visualization respectively. The generation of the Rayleigh waves in the above conditions was simulated by numerical calculations based on the wave propagation theory for layered media.

机译：本文报道了一种用于测量生物样本的速度的技术，其中生物样本的厚度和样本的测量区域的直径为几微米的数量级。选择肾脏作为标本，作为软材料的一个例子。用切片机将肾脏切成薄片，并置于基质上。样品的厚度基本上为3μm。对于衬底，使用熔融石英是因为其弹性特性是已知的且稳定的。使用球面声透镜确定测量位置。 400和600 MHz的频率分别用于测量和可视化。基于层状介质的波传播理论，通过数值计算，模拟了上述条件下瑞利波的产生。

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来源
《2002 ASME Pressure Vessels and Piping Conference, Aug 5-9, 2002, Vancouver, British Columbia, Canada》|2002年|p.27-32|共6页
会议地点 Vancouver(CA)
作者
Chiaki Miyasaka; Jikai Du; Bernhard R. Tittmann;
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Department of Engineering Science and Mechanics The Pennsylvania State University 212 Earth and Engineering Science Building University Park, PA 16802;

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原文格式 PDF
正文语种 eng
中图分类机械、仪表工业;
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专利

1. Characterizing biological tissue using scanning laser acoustic microscopy [J] . Assentoft J.E., Jorgensen C.S. IEEE Engineering in Medicine and Biology Magazine . 1996,第1期

机译：使用扫描激光声学显微镜表征生物组织
2. Multilayer analysis: quantitative scanning acoustic microscopy for tissue characterization at a microscopic scale [J] . Raum K., Jenderka K.V., Klemenz A., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2003,第5期

机译：多层分析：定量扫描声显微镜，用于微观尺度的组织表征
3. Multilayer analysis: quantitative scanning acoustic microscopy for tissue characterization at a microscopic scale [J] . Raum K., Jenderka K.V., Klemenz A., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2003,第5期

机译：多层分析：定量扫描声显微镜，用于微观尺度的组织表征
4. CHARACTERIZATION OF THIN BIOLOGICAL TISSUE WITH SCANNING ACOUSTIC MICROSCOPY [C] . Chiaki Miyasaka, Jikai Du, Bernhard R. Tittmann, ASME Pressure Vessels and Piping Conference . 2002

机译：扫描声学显微镜薄生物组织的表征
5. Study of Thickly and Thinly Sectioned Melanoma Skin Tissues with Mechanical Scanning Acoustic Reflection Microscopy. [D] . Tian, Yihan. 2010

机译：机械扫描声反射显微镜研究黑色素瘤皮肤组织的薄层和薄层。
6. Quantifying Micro-mechanical Properties of Soft Biological Tissues with Scanning Acoustic Microscopy [O] . Xuegen Zhao, Steven Wilkinson, Riaz Akhtar, -1

机译：用扫描声波显微镜软生物组织的量化微观力学性能
7. VISUALIZATION OF ACOUSTIC PROPERTIES OF BIOLOGICAL TISSUES BY SCANNING ACOUSTIC MICROSCOPY [O] . Yoshifumi SAIJO, Motonao TANAKA 1994

机译：通过扫描声学显微镜通过扫描生物组织的声学性质的可视化
8. Imaging and Quantitative Data Acquisition of Biological Cell Walls with Atomic Force Microscopy and Scanning Acoustic Microscopy. [R] . Tittmann, B. R., Xi, X. 2014

机译：利用原子力显微镜和扫描声学显微镜对生物细胞壁进行成像和定量数据采集。

CHARACTERIZATION OF THIN BIOLOGICAL TISSUE WITH SCANNING ACOUSTIC MICROSCOPY

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