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An Introduction to Applied Physics in Diagnostic Ultrasound
Introduction to Ultrasonic Wave Analysis
23 other sections not shown
A-mode acoustic impedance acoustic shadow amplitude amplitude-vs-time angle of divergence attenuation axial resolution B-mode B-scan B-scan image B-scan unit basic calculated calibration concepts considered coordinate crystal curve diagnostic ultrasound display distance Doppler shift dynamic range echoes electrical electron element equation evaluate example fluid focusing frequency function Gaithersburg gray-scale illustrated in Figure improved instrument intensity interface lateral resolution linear linear-array longitudinal longitudinal wave material mathematical measurement motion near-field Note obtained oscilloscope parameters pattern recognition phantom physics piezoelectric potentiometer presented procedure pulse pulse-echo pulser recording reflection factor reflector refraction sample problem Sample Results scanning shear waves shown in Figure side-lobe energy Snell's law soft tissue solution sonic surface techniques tissue classification transverse-pressure profile ultrasonic beam Ultrasonic Imaging ultrasonic test ultrasonic transducer ultrasonic wave ultrasonic waveform ultrasonogram various voltage wave propagation wave speed wave velocity waveform wavelength