If this is your first visit, be sure to check out the FAQ by clicking the link above. You may have to register before you can post: click the register link above to proceed. To start viewing messages, select the forum that you want to visit from the selection below. |
|
|
|
Thread Tools | Display Modes |
#1
|
|||
|
|||
f/8 is the magic aperture for sharpness
According to this page f/8 is much sharper than higher or lower
apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 I had no idea. It seems too simple, surely it varies depending on the lens? The writing is a bit confusing, I think these are the relevant parts explaining this chart: http://www.photodo.com/pix/art/best_at_8.gif "In the diagram above with the two curves, the descending curve symbolizes diffraction. At wide apertures the diffraction is minimal. The part of the light beam that turns fuzzy is very small. But when you stop down and the hole gets smaller the diffraction gets worse." "A lens improves optically when stopped down. At large apertures most of the glass in the lens is used, resulting in a slight blur caused by unavoidable imperfections in the lenses. When stopping down you screen off parts of the lens and use only the central area of it. The optical picture is more correct and the resolution improves. The ascending curve, starting at 40, symbolizes this "optical" and theoretical sharpness." "It's only the light passing closest to the aperture edge that turns off and becomes fuzzy, so when you are using a wider aperture the percentage of light that is fuzzy decreases. Small holes result in a lot of diffraction." "When a wave passes an edge, it turns slightly. It's called diffraction. The diameter if the light passing a lens is limited by the diameter of the aperture. The aperture forms a sharp edge and the light closest to the edges turns off slightly. The edges of the aperture cause a certain fuzziness." |
#2
|
|||
|
|||
"paul" wrote in message
... According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 I had no idea. It seems too simple, surely it varies depending on the lens? The writing is a bit confusing, I think these are the relevant parts explaining this chart: http://www.photodo.com/pix/art/best_at_8.gif Hence the phrase: "f8 and be there..." |
#3
|
|||
|
|||
paul wrote:
According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 It's part right. The real deal is that for most lenses, peak sharpness begins at about 2 to 3 stops closed from max aperture. So the story is slightly different for an f/1.4 lens v. an f/3.5 lens or a zoom that starts at f/5.6. Most lenses are fairly sharp through about f/16. OTOH, if you don't use a tripod, it is all a very moot point. It's not a bad rule of thumb to assume f/8 and the differences between f/8, f/11 and f/16 in sharpness are not very discernible in an image that is worth pondering. There are diffraction limited lenses that are sharp at their widest apertures and remain sharp for 4 or 5 stops down from there before becoming softer due to difraction at very small apertures. Having said all that, composition is usually more important than sharpness, so choose the aperture for the composition. Cheers, Alan -- -- r.p.e.35mm user resource: http://www.aliasimages.com/rpe35mmur.htm -- r.p.d.slr-systems: http://www.aliasimages.com/rpdslrsysur.htm -- [SI] gallery & rulz: http://www.pbase.com/shootin -- e-meil: there's no such thing as a FreeLunch. |
#4
|
|||
|
|||
paul wrote in :
According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 I had no idea. It seems too simple, surely it varies depending on the lens? The writing is a bit confusing, I think these are the relevant parts explaining this chart: http://www.photodo.com/pix/art/best_at_8.gif Hmmmm ... I am just as surprised as you. If you have a perfect circular aperture, then the diffraction is very easy to calculate. So - thats not a problem. But - it sounds very strange that the unsharpness due to lens faults should follow some kind of curve that is similar for different lenses. Are you sure that it is not first of April? /Roland |
#5
|
|||
|
|||
On Fri, 21 Jan 2005 13:51:27 -0800, paul wrote:
According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 I had no idea. It seems too simple, surely it varies depending on the lens? The writing is a bit confusing, I think these are the relevant parts explaining this chart: http://www.photodo.com/pix/art/best_at_8.gif "In the diagram above with the two curves, the descending curve symbolizes diffraction. At wide apertures the diffraction is minimal. The part of the light beam that turns fuzzy is very small. But when you stop down and the hole gets smaller the diffraction gets worse." "A lens improves optically when stopped down. At large apertures most of the glass in the lens is used, resulting in a slight blur caused by unavoidable imperfections in the lenses. When stopping down you screen off parts of the lens and use only the central area of it. The optical picture is more correct and the resolution improves. The ascending curve, starting at 40, symbolizes this "optical" and theoretical sharpness." "It's only the light passing closest to the aperture edge that turns off and becomes fuzzy, so when you are using a wider aperture the percentage of light that is fuzzy decreases. Small holes result in a lot of diffraction." "When a wave passes an edge, it turns slightly. It's called diffraction. The diameter if the light passing a lens is limited by the diameter of the aperture. The aperture forms a sharp edge and the light closest to the edges turns off slightly. The edges of the aperture cause a certain fuzziness." For crummy, cheap regular lenses, stopping down always improves sharpness. This is a shame in a way because the larger the aperture of the lens, the more true resolution it should have. The diffraction limit, which imposes the limit on detail seen is roughly 4.48 arc seconds (smallest detail resolvable) per inch of lens aperture. So a 1" lens can show detail 4.48 arc seconds across a 2" wide lens will show detail half that size, 2.24" across, etc. For instance, given the same quality, a lens with a 4" wide aperture should yield details twice as small as a lens of 2" aperture. However, this only applies to lenses with enough focal length to take advantage of the resolution afforded by aperture. This would (unfortunately) mean having a focal length = 2500mm for a 4" aperture lens or 1200mm for a lens with a 2" maximum aperture. This is one way to reach the diffraction limit for a lens. The only way to provide that kind of focal lenght for those aperture is to use a telescope which consists of a "prime" lens (called the objective) and a series of positive lenses interposed between the camera the the prime lens. Camera lenses are not designed to approach the diffraction limit, none of them are made to a high enough standard (1.8th wave accurate or so) to get to the diffraction limit. However, there have been (apparently) camera lenses designed to provide maximum sharpness when at full aperture, some of the "Noct" lenses from Nikon or Leica are such lenses. However, I don't know if the claims for their sharpness are true or not. But getting back to the original concept of stopping a lens down. Suppose you stop a lens with a 2" wide front lens down to f8. That means that the focal length versus the aperture is now 8:1. For a 100mm prime lens with a 2" (50mm) front lens, this means the lens opening is only 12.5mm across and it's theoretical maximum resolution is now only 9 arc seconds, far less than if the original 2" aperture could be used. What you have done by stopping the lens down is minimize the inherent aberrations in that lens. Sperical aberration (the inability to focus light entering different areas of the front lens to the same point) chromatic aberration, astigmatism, coma, etc. This means that the residual aberrations of the camera lens (on average) are so bad that you must drastically reduce the aperture to obtain maximum sharpness. However, because of the limit on focal length verus aperture in a camera lens, the lens's true resolving power (even at a small 12.5mm aperture) is never reached. -Rich -Rich |
#6
|
|||
|
|||
paul wrote:
According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 I had no idea. It seems too simple, surely it varies depending on the lens? It does. A good lens is best at much larger openings. And this part of the article shows me it's BS.. "The 50/1,8 lens was focused using the cameras superb auto-focus." You NEVER use auto focus for lens testing. Bottom line, test your own lenses. Some medium format lenses need to be stopped down to f11 to be "their best" some of the newest digital lenes are best at f4. -- Stacey |
#7
|
|||
|
|||
I think it depends on the lens. I've used my 85 1.8 to take some awesome
and very sharp 35mm photos taking advantage of the limited depth of field the lens provides. Looking forward to getting my new D70 and using the lens with it. The only thing I'll miss is the up-close-and-personal touch the 85 gave me when I used it for portraits. I'll have to back up a bit due to the magnification factor. "paul" wrote in message ... According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 I had no idea. It seems too simple, surely it varies depending on the lens? The writing is a bit confusing, I think these are the relevant parts explaining this chart: http://www.photodo.com/pix/art/best_at_8.gif "In the diagram above with the two curves, the descending curve symbolizes diffraction. At wide apertures the diffraction is minimal. The part of the light beam that turns fuzzy is very small. But when you stop down and the hole gets smaller the diffraction gets worse." "A lens improves optically when stopped down. At large apertures most of the glass in the lens is used, resulting in a slight blur caused by unavoidable imperfections in the lenses. When stopping down you screen off parts of the lens and use only the central area of it. The optical picture is more correct and the resolution improves. The ascending curve, starting at 40, symbolizes this "optical" and theoretical sharpness." "It's only the light passing closest to the aperture edge that turns off and becomes fuzzy, so when you are using a wider aperture the percentage of light that is fuzzy decreases. Small holes result in a lot of diffraction." "When a wave passes an edge, it turns slightly. It's called diffraction. The diameter if the light passing a lens is limited by the diameter of the aperture. The aperture forms a sharp edge and the light closest to the edges turns off slightly. The edges of the aperture cause a certain fuzziness." |
#8
|
|||
|
|||
In message ,
Alan Browne wrote: paul wrote: According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 It's part right. The real deal is that for most lenses, peak sharpness begins at about 2 to 3 stops closed from max aperture. So the story is slightly different for an f/1.4 lens v. an f/3.5 lens or a zoom that starts at f/5.6. Most lenses are fairly sharp through about f/16. OTOH, if you don't use a tripod, it is all a very moot point. That would depend on your shutter speed, and angle of view. A tripod can only improve on a 15mm lens at 1/2000 in terms of steadily maintaining composition and rotation. It doesn't improve sharpness. -- John P Sheehy |
#9
|
|||
|
|||
On 22-Jan-05 20:09:32, JPS said
In message , paul wrote: According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 It's part right. The real deal is that for most lenses, peak sharpness begins at about 2 to 3 stops closed from max aperture. So the story is slightly different for an f/1.4 lens v. an f/3.5 lens or a zoom that starts at f/5.6. Most lenses are fairly sharp through about f/16. OTOH, if you don't use a tripod, it is all a very moot point. Just to muddy the waters.... at my last place of work, I foolishly went to take a group photo without a tripod, this was a cloudy December afternoon. I was using a D1X with I think a 35-70(?) Nikkor zoom. I usually keep it at 200 ISO but went to 400 for another stop and ended up using the lens wide open. The results were pretty horrible, people out of the centre of the picture were really blurry - and it wasn't a big group ( a frontage of only 10 people).. I thought it was a "rotating" camera movement but my colleague (who uses identical kit" said after a similar experience, he never goes below f8 with a group. I went outside and photographed the wall at a similar distance to the group shot - on a tripod -same aperture. The result was the same yukky sharpness (forgive the technical term) off the centre. I was surprised that a new and well looked-after lens could not yield an acceptable result in these conditions. Therefore, in practice I would avoid large apertures like the plague where definiton off the centre of the image was a factor. All the best, Angus Manwaring. (for e-mail remove ANTISPEM) I need your memories for the Amiga Games Database: A collection of Amiga Game reviews by Amiga players http://www.angusm.demon.co.uk/AGDB/AGDB.html |
#10
|
|||
|
|||
Angus Manwaring wrote:
On 22-Jan-05 20:09:32, JPS said In message , paul wrote: According to this page f/8 is much sharper than higher or lower apertures: http://www.photodo.com/art/Impr13.shtml. Scroll to the bottom for test shots at f/1,8-f/22 It's part right. The real deal is that for most lenses, peak sharpness begins at about 2 to 3 stops closed from max aperture. So the story is slightly different for an f/1.4 lens v. an f/3.5 lens or a zoom that starts at f/5.6. Most lenses are fairly sharp through about f/16. OTOH, if you don't use a tripod, it is all a very moot point. Just to muddy the waters.... at my last place of work, I foolishly went to take a group photo without a tripod, this was a cloudy December afternoon. I was using a D1X with I think a 35-70(?) Nikkor zoom. I usually keep it at 200 ISO but went to 400 for another stop and ended up using the lens wide open. The results were pretty horrible, people out of the centre of the picture were really blurry... Therefore, in practice I would avoid large apertures like the plague where definiton off the centre of the image was a factor. That makes sense that the wide apertures are used for single portraits for an extra blurry background & a fairly soft face. Hmm, now that I think of it, the people at the edges would be further away than the middle unless they stood in a semi-circle with the camera at the center. What's a bit contradictory though is that page says narrow apertures cause more edge blur due to diffraction across the edge of the narrow opening. Their diagram indicates this should be much worsse at the edges and negligible in the center (except at very very small apertures). Larger apertures (according to them) cause blur due to the larger area of glass being used introducing more imperfections in the glass, especially with zoom lenses having more glass in them (is that correct?). I don't know, if there were slight imperfections in the center of the glass, that could be badly emphasized too I would think. Higher quality lenses should have little loss at wide apertures but even expensive lenses should suffer at small apertures (except in the center). I'm not very experienced but the f/36 on my D70 is unusually tiny isn't it? I did this hasty test leaning the camera on a doorway (no tripod): http://www.edgehill.net/1/?SC=go.php&DIR=Misc/photography/f-stop-test it's a 28-200 nikor which is rated well considering the huge zoom range but obviously not the most extraordinary lens. (you will also notice the hideous sensor dist at f/36 which I pointed out in another thread. |
|
Thread Tools | |
Display Modes | |
|
|
Similar Threads | ||||
Thread | Thread Starter | Forum | Replies | Last Post |
A truly HORRIFIC tsunami picture | Mike Henley | Digital Photography | 872 | January 29th 05 11:45 PM |
Lenses with fixed aperture | Skip M | Digital Photography | 2 | January 12th 05 06:08 AM |
Question about Aperture priority and Shutter Priority | John Edwards | Digital Photography | 14 | January 5th 05 04:58 PM |
Cameras without aperture and shutter priority - any good? | John Wright | Digital Photography | 3 | August 29th 04 04:11 PM |
Stupid Question: Aperture | one_of_many | Large Format Photography Equipment | 8 | June 24th 04 06:15 PM |