![]() ![]() (b) The drawing shows the bright central maximum and dimmer and thinner maxima on either side. The central maximum is six times higher than shown. Monochromatic light passing through a single slit has a central maximum and many smaller and dimmer maxima on either side. See the differences for yourself with your own lenses and camera-invest the effort. Figure 27.21 (a) Single slit diffraction pattern. It might well be that f/8 or even f/11 will in fact be optimal on the 1DsM3 due to optical shortcomings of less impressive alternatives. Comparisons at smaller apertures are still worthwhile, so long as one does not make conclusions about optimal image sharpness with the 1DsM3.įew lenses are going to perform as well as the Leica R 180/2.8 APO-Elmarit-R. While f/8 is just barely defensible, comparing results at f/11 and f/16 is absurd if the goal is to actually see what the 1DsM3 can produce under optimal conditions. With a top-performing lens on the 21-megapixel Canon EOS 1Ds Mark III, the negative effects of diffraction can be seen as early as f/8, with f/5.6 being the last (whole) aperture providing optimal image quality.Īny allegedly objective comparison of maximal image sharpness of the Canon EOS 1Ds Mark III to its peers (EOS 1Ds Mark II, EOS 5D, Nikon D3) is misleading if the aperture used is smaller than f/5.6 (on a top-performing lens). To see how much has been lost at f/16, compare f/16 to f/5.6 sharpening is not going to bring the detail back (it’s gone). Don’t stop down to f/16 on the EOS 1DsM3 unless increased depth of field outweighs the negatives. Observe the wire hoops, the detail in the stonework and tiles.Īperture f/8 shows clear signs of contrast loss the small wire loops go slightly soft and the fine detail in the stonework loses its crispness.Īperture f/11 continues the trend which started at f/8: contrast and crispness decline a little more.Īt aperture f/16, image quality holds up remarkably well, but contrast is now visibly reduced the image has lost its “punch”, is visibly soft and detail has “gone missing”. Micro detail picks up slightly at f/5.6, which is the optimal aperture. As good as the Leica lens is, it’s definitely not diffraction-limited at f/4, as one might hope. Aperture seriesĪ nice improvement in contrast is seen by stopping down from f/2.8 to f/4. Mousing over each image shown below will switch to the next smaller aperture (eg mousing over the f/2.8 image will switch to f/4, Javascript must be enabled). ![]() Please see Diffraction-A Technical Challenge and Diffraction-A Real-world Example for background information on diffraction, aperture and depth of field. The diffraction examples seen on this page represent the worst case many lenses might not show the same differences because they simply cannot “deliver the goods” as the 180/2.8 APO-Elmarit-R can. ![]() This examples uses the world-class Leica R 180/2.8 APO-Elmarit-R, widely regarded as one of the finest lenses available today. The 6.4-micron photosites of the 21-megapixel Canon EOS demand very high resolving power from lenses, resolving power that most lenses can deliver at some apertures over some portion of the frame, but that few can deliver with more than modest contrast. ![]()
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