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On the Lens Interferometer

Published online by Cambridge University Press:  24 October 2008

G. C. Steward
Affiliation:
Gonville and Caius College.

Extract

The interferometer designed by Michelson has been adapted in recent years to the testing of various types of optical systems, one form being used for the testing of prisms and another form—the “lens interferometer”—for the examination of the symmetrical optical system. The details of the instrument may be found in a paper by Mr F. Twyman, in which are given some photographs of the results of its application to certain lenses of known aberration. Essentially the interferometer ensures that a plane and undistorted wave of light falls upon the lens or system to be examined, after refraction through which it falls upon a convex mirror whose centre is at the focus of the converging wave; by which, therefore, the wave is returned through the optical system and emerges as a plane wave if the system under examination be ‘perfect,’ or free from aberration. Otherwise the final wave is not plane, but is distorted by the aberrations impressed upon it by the system under test—through which, it will be noticed, it passes twice; and this emergent wave is superposed upon a portion of the incident (plane) wave, obtained by previous passage through a partly silvered mirror; with which, therefore, interference effects are observed. And these effects depend only upon the aberrations produced by the system under examination, for they measure, in fact, the departure of the finally emergent wave from the ideal plane form. Various interference contours are obtained in this way, and their form and size enable the observer to deduce the aberrations of the system and to measure their magnitude.

Type
Research Article
Copyright
Copyright © Cambridge Philosophical Society 1928

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References

* Twyman, , “An Interferometer for Testing Camera Lenses,” Trans. Opt. Soc. vol. XXII, 19201921, p. 4;Google Scholarsee also Davell, , “Universal Lens Interferometer,” Proc. Opt. Convention, 1926, vol. II, p. 1032.Google Scholar

* Cf. “The Aberrations of a Symmetrical Optical System,” Trans. Camb. Phil. Soc. vol. IX, 1926;Google ScholarDiffraction Patterns Associated with a Symmetrical Optical System,” Proc. Opt. Convention, 1926, vol. II, p. 776;Google ScholarAberration Diffraction Effects,” Phil. Trans. Roy. Soc. A, 225 (1925).Google Scholar