Archived posting to the Leica Users Group, 2001/07/24
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]Dante A. Stella wrote: "The real threat to 35mm film will come with the next generation of sensors. If pixel size were to, say, halve, you could halve the frame size and use much smaller cine-type lenses. Then you get into f/1.4 and f/2 zooms, things that conventional camera users dream about. (On that scale, just about every M-mount lens would be dog slow and huge). If pixel size quartered, you would have twice the resolution and half the size." The chip size has to increase if the resolution is ever going to approach that of the conventional film process. For a perfect lens, the minimum spot size on the film (the Airy disk) is a function of the f number. For green light (ie the centre of the optical band), the Airy disk diameter is F Airy disk equivalent number diameter (mm) lp/mm 4 0.0045 335 8 0.0089 168 16 0.0179 84 22 0.0246 61 Now clearly at the wider apertures, with real lenses, that theoretical figure is limited by other aberrations. As you stop down, the resolution of a well designed lens will approach, and eventually be limited by, the diffraction effect. Hence the description of a lens as "diffraction limited". The problem is a simple one: you can't scale an optical design to produce high resolutions from small sensors, because the resolution at the target (be it film or sensor) is a function only of the f-number, and so such scaling downwards doesn't work. - -- David Morton dmorton@journalist.co.uk "The more opinions you have, the less you see." -- Wim Wenders.