eyepiece interferometer - определение. Что такое eyepiece interferometer
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Что (кто) такое eyepiece interferometer - определение

COMMON CONFIGURATION FOR OPTICAL INTERFEROMETRY INVENTED BY ALBERT ABRAHAM MICHELSON
Michelson Interferometer; Echelon interferometer; Michelson-Morley interferometer
  • Figure 9. Magnetogram (magnetic image) of the Sun showing magnetically intense areas (active regions) in black and white, as imaged by the Helioseismic and Magnetic Imager (HMI) on the Solar Dynamics Observatory
  • Figure 5. Fourier transform spectroscopy.
  • This image demonstrates a simple but typical Michelson interferometer. The bright yellow line indicates the path of light.
  • Figure 3. Formation of fringes in a Michelson interferometer
  • Figure 4. Michelson interferometers using a white light source
  • Figure 2. Path of [[light]] in Michelson interferometer.
  • Figure 8. Typical optical setup of single point OCT
  • Figure 7. Helioseismic Magnetic Imager (HMI) dopplergram showing the velocity of gas flows on the solar surface. Red indicates motion away from the observer, and blue indicates motion towards the observer.
  • This photo shows the fringe pattern formed by the Michelson interferometer, using monochromatic light (sodium D lines).
  • Figure 6. Twyman–Green interferometer.

Twyman–Green interferometer         
SCIENTIFIC INSTRUMENT
Twyman-green interferometer; Twyman-Green Interferometer; Twyman-Green interferometer
A Twyman–Green interferometer is a variant of the Michelson interferometer principally used to test optical components. It was introduced in 1916 by Frank Twyman and Arthur Green.
Navy Precision Optical Interferometer         
  • Navy Precision Optical Interferometer layout.
MAJOR ASTRONOMICAL INTERFEROMETER
Prototype Optical Interferometer; Navy Prototype Optical Interferometer; Navy Optical Interferometer; NPOI
The Navy Precision Optical Interferometer (NPOI) is an American astronomical interferometer, with the world's largest baselines, operated by the Naval Observatory Flagstaff Station (NOFS) in collaboration with the Naval Research Laboratory (NRL) and Lowell Observatory. The NPOI primarily produces space imagery and astrometry, the latter a major component required for the safe position and navigation of all manner of vehicles for the DoD.
Intensity interferometer         
ASTRONOMY DEVICE
Correlation interferometer; Correlation Interferometer; Intensity Interferometer; Intensity interferometry; Correlation interferometry
An intensity interferometer is the name given to devices that use the Hanbury Brown and Twiss effect. In astronomy, the most common use of such an astronomical interferometer is to determine the apparent angular diameter of a radio source or star.

Википедия

Michelson interferometer

The Michelson interferometer is a common configuration for optical interferometry and was invented by the 19/20th-century American physicist Albert Abraham Michelson. Using a beam splitter, a light source is split into two arms. Each of those light beams is reflected back toward the beamsplitter which then combines their amplitudes using the superposition principle. The resulting interference pattern that is not directed back toward the source is typically directed to some type of photoelectric detector or camera. For different applications of the interferometer, the two light paths can be with different lengths or incorporate optical elements or even materials under test.

The Michelson interferometer (among other interferometer configurations) is employed in many scientific experiments and became well known for its use by Michelson and Edward Morley in the famous Michelson–Morley experiment (1887) in a configuration which would have detected the Earth's motion through the supposed luminiferous aether that most physicists at the time believed was the medium in which light waves propagated. The null result of that experiment essentially disproved the existence of such an aether, leading eventually to the special theory of relativity and the revolution in physics at the beginning of the twentieth century. In 2015, another application of the Michelson interferometer, LIGO, made the first direct observation of gravitational waves. That observation confirmed an important prediction of general relativity, validating the theory's prediction of space-time distortion in the context of large scale cosmic events (known as strong field tests).