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Interferometry

179 Sentences | 9 Meanings

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Interferometry is used in geology to measure the deformation of the earth's crust.
The use of holographic interferometry devices allows for the visualization of complex mechanical systems under load.
The use of scanning probe microscopy interferometry devices enables the measurement of surface roughness and topography at the nanoscale.
Interferometry devices can be used to measure the shape and curvature of lenses and mirrors.
An interferometry device known as a Fizeau interferometer is used to test the flatness of optical surfaces.
Interferometry devices are used in the study of quantum computing to measure and manipulate qubits.
A common type of interferometry device used in surface inspection is the white light interferometer.
A type of interferometry device called a Mach-Zehnder interferometer is used in telecommunications to split and recombine light signals.
Interferometry devices are used to study the acoustic properties of materials, such as the speed of sound and absorption coefficients.
Interferometry devices can be used to measure the thickness of thin films and coatings.
The use of interferometry devices has revolutionized the field of astronomy, enabling the detection and study of gravitational waves.
The Michelson interferometer is a type of interferometry device that is used to measure the distance between two objects.
The use of Doppler interferometry devices is common in the study of fluid mechanics and turbulence.
The use of phase-shifting interferometry devices allows for the measurement of 3D shapes and deformation fields of complex objects.
Interferometry devices can be used to measure the refractive index of biological tissues, which is important for medical diagnostics.
The use of a laser interferometry device is critical for the measurement of small displacements, such as in the study of MEMS devices.
Interferometry devices can be used to measure the refractive index of materials, which is important for optics and photonics.
Interferometry devices can be used to measure the motion and vibration of mechanical structures, such as bridges and buildings.
Scientists use interferometry to investigate the properties of electromagnetic waves.
Interferometry has revolutionized the field of gravitational wave astronomy, allowing for the detection of waves emitted by colliding black holes and neutron stars.
Interferometry is a powerful tool for studying the properties of waves in the ocean and atmosphere.
Researchers use interferometry to study the properties of sound waves and vibrations.
The study of interferometry has led to many important discoveries in physics and engineering.
The use of interferometry in seismology has enabled the measurement of small vibrations in the earth's crust, which can provide information about earthquakes and other geological phenomena.
Interferometry is a useful tool for measuring small changes in distance or displacement.
Interferometry can be used to study the properties of electromagnetic waves, such as their wavelength and frequency.
The technique of interferometry is often used in the field of spectroscopy, which involves the study of the interaction of light with matter.
Interferometry is commonly used in the field of optics to study the behavior of light.
Interferometry has been used to study the properties of matter waves, which are a type of wave associated with particles such as electrons and atoms.
Interferometry is a useful technique in the field of optical metrology, which involves the measurement of distances and dimensions.
The principles of interferometry are applied in the design and construction of interferometers.
Interferometry is an important technique for studying the structure and properties of materials.
Interferometry can be used to measure the refractive index of materials, which is a fundamental property related to the way light interacts with them.
The use of interferometry in quantum mechanics has enabled the study of the properties of entangled particles, which are linked in a way that defies classical physics.
Interferometry has been used to study the properties of gravitational waves, which are ripples in the fabric of spacetime.
The science of interferometry has many practical applications in engineering and technology.
Interferometry has been used to measure the properties of waves in the Earth's atmosphere, providing valuable data for weather and climate modeling.
The use of interferometry in the field of microscopy has enabled the imaging of structures at the nanoscale, providing insights into biological and materials science.
The application of interferometry in radio astronomy has enabled the discovery of many new celestial objects and phenomena.
Interferometry is an important tool in the study of plasmonics, which involves the study of the interaction of light with metallic structures.
The use of interferometry in the field of biophysics has allowed researchers to study the properties of biological molecules and structures.
Interferometry is used in astronomy to study the properties of light waves.
Interferometry is an important tool in the study of plasma physics, which involves the behavior of ionized gases.
Interferometry is a key technique in the study of fluid dynamics, which involves the behavior of liquids and gases in motion.
The research team used interferometry to detect the small changes in the curvature of the Earth's surface.
The interferometry technique was used to measure the deformation in a sample of steel.
The researchers used interferometry to measure the changes in the surface of a mirror.
Interferometry is a useful tool for studying the behavior of small particles.
The physicists used interferometry to measure the minuscule changes in the length of a metal wire.
The astronomers used interferometry to study the shape and size of distant galaxies.
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