A new method for sensitive and automatic measurements of sound velocity and attenuation
Author:
Publisher
AIP Publishing
Subject
Instrumentation
Link
http://aip.scitation.org/doi/pdf/10.1063/1.1144221
Reference13 articles.
1. Mesure de la variation de la vitesse de phase d'une onde ultrasonore se propageant dans un cristal paramagnetique
2. A High-Speed Ultrasonic Sing-Around System
3. A narrow-band sing-around ultrasonic velocity measurement system
4. Instrument for Continuous High Resolution Measurement of Changes in the Velocity of Ultrasound
5. New, compact instrument for pulse‐echo‐overlap measurements of ultrasonic wave transit times
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1. Improved ultrasonic interferometer technique for propagation velocity and attenuation measurement in liquids;Review of Scientific Instruments;2019-04
2. Kinetics effects in lithium-potassium tantalate crystals;Europhysics Letters (EPL);1996-03-01
3. Accurate, sensitive, and fully automatic method to measure sound velocity and attenuation;Review of Scientific Instruments;1994-09
4. Effect of the electric field on the elastic and dielectric properties of a lithium-potassium tantalate crystal;Journal de Physique I;1994-01
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