Thematische Bibliographien / High-Frequency acoustic microscopy

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Auswahl der wissenschaftlichen Literatur zum Thema „High-Frequency acoustic microscopy“

Autor: Grafiati
Veröffentlicht am 11. Januar 2025

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Zeitschriftenartikel zum Thema "High-Frequency acoustic microscopy"

1

Qiao, DongHai, ShunZhou Li, and ChengHao Wang. "High frequency acoustic microscopy with Fresnel zoom lens." Science in China Series G: Physics, Mechanics and Astronomy 50, no. 1 (2007): 41–52. http://dx.doi.org/10.1007/s11433-007-0002-5.

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2

Gailet, Jacqueline. "Scanning Acoustical Microscopy." Microscopy Today 2, no. 5 (1994): 26–28. http://dx.doi.org/10.1017/s155192950006630x.

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One of Olympus' not well known product in the American market is the UH3 Scanning Acoustic Microscope (SAM). This state of the art, highly versatile microscope has many applications from non-destructive imaging to biomedical analysis, to pharmaceutical applications to name a few areas of current industrial interest.The principle behind SAM is quite simple, and uses the basic physical laws of reflection. High frequency sound waves are mechanically produced by a piezoelectric crystal. A high voltage impulse spike starts the crystal vibrating at its preset resonant frequency emitting acoustical plane waves through a medium with a relatively high sound velocity such as sapphire. The waves are made to converge by a half-spherical lens at the bottom of the sapphire rod. The diameter of the lens is less than one millimeter and depends on the operating frequency. The lower the frequency, the larger is the diameter of the lens.
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3

Kumon, R. E., I. Bruno, B. Heartwell, and E. Maeva. "Breast tissue characterization with high‐frequency scanning acoustic microscopy." Journal of the Acoustical Society of America 115, no. 5 (2004): 2376. http://dx.doi.org/10.1121/1.4780120.

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4

Anastasiadis, Pavlos, and Pavel V. Zinin. "High-Frequency Time-Resolved Scanning Acoustic Microscopy for Biomedical Applications." Open Neuroimaging Journal 12, no. 1 (2018): 69–85. http://dx.doi.org/10.2174/1874440001812010069.

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High-frequency focused ultrasound has emerged as a powerful modality for both biomedical imaging and elastography. It is gaining more attention due to its capability to outperform many other imaging modalities at a submicron resolution. Besides imaging, high-frequency ultrasound or acoustic biomicroscopy has been used in a wide range of applications to assess the elastic and mechanical properties at the tissue and single cell level. The interest in acoustic microscopy stems from the awareness of the relationship between biomechanical and the underlying biochemical processes in cells and the vast impact these interactions have on the onset and progression of disease. Furthermore, ultrasound biomicroscopy is characterized by its non-invasive and non-destructive approach. This, in turn, allows for spatiotemporal studies of dynamic processes without the employment of histochemistry that can compromise the integrity of the samples. Numerous techniques have been developed in the field of acoustic microscopy. This review paper discusses high-frequency ultrasound theory and applications for both imaging and elastography.
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5

Murray, Todd W., and Oluwaseyi Balogun. "A novel approach to high‐frequency laser‐based acoustic microscopy." Journal of the Acoustical Society of America 116, no. 4 (2004): 2617. http://dx.doi.org/10.1121/1.4785436.

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6

Brand, Sebastian, Eike C. Weiss, Robert M. Lemor, and Michael C. Kolios. "High Frequency Ultrasound Tissue Characterization and Acoustic Microscopy of Intracellular Changes." Ultrasound in Medicine & Biology 34, no. 9 (2008): 1396–407. http://dx.doi.org/10.1016/j.ultrasmedbio.2008.01.017.

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7

Korkh, Yu V., D. V. Perov, and A. B. Rinkevich. "Detection of subsurface microflaws using the high-frequency acoustic microscopy method." Russian Journal of Nondestructive Testing 51, no. 4 (2015): 198–209. http://dx.doi.org/10.1134/s1061830915040051.

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8

Mario, Poschgan, Maynollo Josef, and Inselsbacher Michael. "Inverted high frequency Scanning Acoustic Microscopy inspection of power semiconductor devices." Microelectronics Reliability 52, no. 9-10 (2012): 2115–19. http://dx.doi.org/10.1016/j.microrel.2012.06.064.

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9

Xu, Chunguang, Lei He, Dingguo Xiao, Pengzhi Ma, and Qiutao Wang. "A Novel High-Frequency Ultrasonic Approach for Evaluation of Homogeneity and Measurement of Sprayed Coating Thickness." Coatings 10, no. 7 (2020): 676. http://dx.doi.org/10.3390/coatings10070676.

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A high-frequency ultrasonic approach for testing and evaluating sprayed coating thickness is proposed in this paper. This technique is based on the maximum frequency interval method of the magnitude spectrum of the acoustic pressure reflection coefficient that adopts Welch spectrum estimation. The acoustic propagation model was set up at normal incidence, and the relationship between the maximum frequency interval by the Welch power spectrum and the coating thickness was established to provide the principle for determining coating thickness. According to this principle, the thickness of a series of stainless steel coatings and ZrO2–Y2O3 (yttria-stabilized zirconia (YSZ)) coatings were detected by scanning acoustic microscopy. The relative error was less than 4% with the microscope method, indicating that the proposed ultrasonic method provides a reliable nondestructive way to measure sprayed coating thickness. The uniformity of the sprayed coating thickness could be intuitively observed from C-scan images by programming.
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10

Briggs, Andrew, and Oleg Kolosov. "Acoustic Microscopy for Imaging and Characterization." MRS Bulletin 21, no. 10 (1996): 30–35. http://dx.doi.org/10.1557/s0883769400031614.

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Acoustic microscopy is useful for characterizing with high spatial resolution the elastic structure and properties of an object. A range of techniques is now available for doing this, which enables the user to select the method and instrument that is most appropriate for a particular requirement. For imaging the interior of structures such as electronic-component packaging, an acoustic microscope operating at a relatively modest frequency can provide advanced nondestructive testing. For characterizing surface coatings and layers that may be only a fraction of a micrometer thick, higher frequency quantitative techniques are needed. For a given application, three questions should be asked at the outset: (1) What depth of material do I wish to include in my inspection? (2) Do I wish to image structures and/or defects, or do I wish to characterize elastic properties? (3) What is the minimum size of a defect or inhomogeneity that I wish to resolve or characterize (at a given depth) during my inspection? Selection of the appropriate technique will depend on the answers.
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