Ultrasonic interferometer

An ultrasonic interferometer is a device designed to study biological fluids and determine the speed of propagation of ultrasonic waves in them. It is used to study the properties of liquids such as viscosity, density and other parameters.

The operating principle of the interferometer is based on the use of two ultrasonic waves that pass through a liquid. One wave is the reference wave, and the other is the measured one. The reference wave passes through the liquid unchanged, but the measured wave undergoes changes due to interaction with the liquid. These changes are then measured and used to determine the speed of propagation of the measured wave.

The ultrasonic interferometer has high accuracy and can be used to measure the speed of ultrasound propagation in liquids with high accuracy. It can also be used to determine other parameters of liquids such as density, viscosity, etc.

The use of ultrasonic interferometer is widespread in various fields such as medicine, chemistry, physics and others. It is used in studies of the properties of biological fluids, in the diagnosis of diseases, in the production of drugs and other fields.

In conclusion, an ultrasonic interferometer is an important tool for studying the properties of liquids and characterizing them. It is widely used in various fields of science and technology, and continues to be developed and improved.

Introduction An ultrasonic interferometer is a device that allows you to measure the speed of propagation of ultrasound in various media, such as liquids, gases and solids. It is widely used in medical diagnostics and industry for product quality control. In this article we will look at the operating principle of an ultrasonic interferometer and its application.

Operating principle An ultrasonic signal is generated in an ultrasound generator and then directed to the medium under study through a piezoelectric transducer. Ultrasound reflected from the surface or interfaces takes the form of interference and is recorded by the receiving transducer. The difference in the arrival time of interference waves makes it possible to determine the speed of propagation of ultrasonic waves.