Longitudinal and lateral chromatic aberration

prismaAs the refractive index of a transmittive medium is dependent on the wavelenght of light, dispersion occurs, when white light transmits such a medium. Refraction is stronger for light of short wavelengths, for example blue, and less intensive for light of long wavelngths, for example red.

Different kinds of glasses cause refraction or dispersion of various intensities. In photographical lenses the the same effect occurs. So it is neccessary to correct these abberations, otherwise you get to see these effects in the images.



There are two main types of chromatic aberrations:
the LATERAL (or transverse) and the LONGITUDINAL chromatic aberration.

longitudinal chromatic aberration
There is LONGITUDINAL CHROMATIC ABERRATION, if a lens cannot focus different colors in the same focal plane. It is caused by straight incident light. The foci of the different colors lie at different points in the longitudinal direction along the optical axis.



longitudinal chromatic aberration effectsThe longitidinal chromatic aberration leads to colored areas in the images, that arise, because not all three colors can be displayed in focus.











lateral chromatic aberration
Obliquely incident light leads to LATERAL CHROMATIC ABERRATION. In that case all colors are in focus in the same plane, but the foci are not placed along the optical axis.





lateral chromatic aberration effectsThis kind of aberration does not lead to colored areas, but to fringes that occur around objects of high contrast as the magnification is dependent on the wavelength.






achromatA way to correct the chromatic aberration is to use different lenses in one optical sytem. Different types of glasses refract light in different intensities, so if you combine differing glaastypes, you can reduce aberrations. An example is an achromat, an optical system that combines a refracting and a dispersing lens.

The convex lens refracts the beams of short wavelenghts (blue) stronger than those of long wavelenghts (red) and the concave lens, that comes afterwards, does the opposit: it spreads the red beams stronger than the blue ones. It comes to a compensation of the focus difference and the different light beams meet in one focus.

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