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Vignetting

Definition: a reduction of image brightness in peripheral regions

German: Vignettierung

Category: vision, displays and imaging

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Cite the article using its DOI: https://doi.org/10.61835/orr

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The field of view of an objective is limited by some kind of optical aperture acting as the field stop. Frequently, the field of view is sharply defined – for example, by the dimensions of the image sensor of a photo camera or by a diaphragm placed in an image plane. However, there are also cases where the field-limiting aperture is substantially away from an image plane, which results in a gradual reduction of image brightness in the outer regions. On the other hand, an aperture stop does not cause vignetting, but a reduction of image brightness in all regions, including the center.

Keplerian telescope
Figure 1: A Keplerian telescope with input rays from two distant objects: one on the optical axis (blue lines) and one which is slightly off-axis. In the latter case, some of the rays cannot enter the ocular anymore, so that there is a vignetting effect. The simulation has been done with the software RP Resonator.

As an example, we consider a Keplerian telescope, which consists of two lenses: an objective and an ocular (eyepiece). It provides some angular magnification for viewing distant objects according to the ratio of focal lengths of objective and ocular. The field of view is limited by the size of the ocular lens, and that element happens not to be placed in an image plane. As is shown in Figure 1, for certain image directions a part of the light rays coming from an object point can still get into the ocular, while other rays are lost. Therefore, the corresponding image point on the retina in the eye will have a reduced brightness. That problem can be solved by inserting an additional field lens.

Vignetting can also have other causes, not related to apertures. For example, if a photographic objective is designed such that the peripheral regions of the film or the image sensor are illuminated with a substantial angle of incidence, they may obtain a reduction of brightness. This is particularly the case for image sensors with microlens arrays. In such cases, the objective is often designed for image-telecentric operation in order to avoid vignetting.

In photography, some substantial vignetting may even be welcome as a special decorative effect for certain situations (e.g. for portraits). However, one would usually not like a photo camera to exhibit significant vignetting as a general feature; one would rather apply some vignetting with image editing software where required. Similarly, a good astronomical or terrestrial telescope should not exhibit vignetting.

In principle, vignetting in a digital photo camera can also be compensated digitally, i.e., by the operation software. With that approach, however, one would lose some amount of dynamic range for the outer regions of images.

See also: imaging, objectives, field of view

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