Add to ORKGA schematic diagram of the acoustic microscope’s operation is shown in Fig. 1. An efficient, focused transducer was excited with a tone burst in order to interrogate the sample of interest. It was also used as the receiving transducer in order to detect the echo from the surface. The transducer receives the reflected signal which is rectified and filtered to give a signal proportional to the amplitude of the returned signal. The transducer is mechanically scanned in a raster style in order to create a two-dimensional acoustic image. This image is then displayed on a high resolution color monitor using various pseudo-color and grey-level color schemes
Acoustic microscopes have become important NDE tools in recent years. For accurate and quantitative ...
The interest of the scanning acoustic microscope previously demonstrated in the biomedical field is ...
The scanning acoustic microscopy is a powerful tool for subsurface imaging and therefore fault detec...
A schematic diagram of the acoustic microscope’s operation is shown in Fig. 1. An efficient, focused...
Since acoustic microscopy was first invented by Quate and Lemons,1 many workers in the field have bu...
Acoustic microscopy is a powerful ultrasonic technique for flaw detection and material characterizat...
Acoustic microscopy enables one to image the interaction of acoustic waves with the elastic properti...
Acoustic microscopy enables you to image and measure the elastic properties of materials with the re...
The Reflection Acoustic Microscope, operating at a microwave frequency near 400 MHz, has been used t...
We have built a low-frequency scanning acoustic microscope (SAM) that measures both amplitude and ph...
The scanning acoustic microscope operating in water with a frequency of 2.5 GHz (wavelength 6000 Å) ...
Abstract: Scanning Acoustic Microscopy (SAcM) has been widely used for non-destructive evaluation (N...
An acoustic microscope that permits operation with both toneburst and impulse excitation of the lens...
A unique advantage of scanning acoustic microscopy lies in the ability to image the interaction of a...
Acoustic microscopy not only allows imaging of sample surfaces with high spatial resolution but also...
Acoustic microscopes have become important NDE tools in recent years. For accurate and quantitative ...
The interest of the scanning acoustic microscope previously demonstrated in the biomedical field is ...
The scanning acoustic microscopy is a powerful tool for subsurface imaging and therefore fault detec...
A schematic diagram of the acoustic microscope’s operation is shown in Fig. 1. An efficient, focused...
Since acoustic microscopy was first invented by Quate and Lemons,1 many workers in the field have bu...
Acoustic microscopy is a powerful ultrasonic technique for flaw detection and material characterizat...
Acoustic microscopy enables one to image the interaction of acoustic waves with the elastic properti...
Acoustic microscopy enables you to image and measure the elastic properties of materials with the re...
The Reflection Acoustic Microscope, operating at a microwave frequency near 400 MHz, has been used t...
We have built a low-frequency scanning acoustic microscope (SAM) that measures both amplitude and ph...
The scanning acoustic microscope operating in water with a frequency of 2.5 GHz (wavelength 6000 Å) ...
Abstract: Scanning Acoustic Microscopy (SAcM) has been widely used for non-destructive evaluation (N...
An acoustic microscope that permits operation with both toneburst and impulse excitation of the lens...
A unique advantage of scanning acoustic microscopy lies in the ability to image the interaction of a...
Acoustic microscopy not only allows imaging of sample surfaces with high spatial resolution but also...
Acoustic microscopes have become important NDE tools in recent years. For accurate and quantitative ...
The interest of the scanning acoustic microscope previously demonstrated in the biomedical field is ...
The scanning acoustic microscopy is a powerful tool for subsurface imaging and therefore fault detec...