There can be many reasons why an image is not tack sharp. It always helps to see the image and the shooting information (EXIF data) as well as any other relevant info (was the camera hand-held vs. on a tripod).
But when it comes to filters … filter quality can make a difference. I use numerous filters in astronomy including wide-band filters (e.g. “red”, “green”, “blue”) and narrowband filters (specific wavelengths such as “hydrogen alpha” or “oxygen III”), solar filters (visible light blocking filters that block most of the Sun’s light) and I’ve learned that (a) when I change filters (some of these filters are installed on a motorized “filter wheel” and I can rotate to the next filter) that I DO need to re-focus. But also … the optimal focus that I can achieve WITH a filter may not be as good as the optimal focus I can achieve WITHOUT a filter (or with a higher quality filter) — depending on the type of filter.
It is not always intuitive. For example, I’ve used solar filters that are glass — so you have this nice flat mirror-like quality glass (very smooth) … vs. a solar filter made out of Mylar film (so it’s wrinkly and not stretched tight like a drum because they fear that temperature changes on a tightly stretched filter may tear it). You would think the wrinkles in the Mylar would hurt the focus and the glass filter would be better. But my experience showed the opposite … I could never get things to be quite tack-sharp with the glass filter … but I could get it sharper with the Mylar filter.
The usual suspects for images not being tack sharp are, of course, focus … but also things like: was there subject movement? Was there camera movement? Was the camera on a tripod with image stabilization turned on (which can create a feedback effect that actually hurts focus)? Is the lens damaged (optical aberrations)?
But if all things being equal … and the ONLY difference is whether the filter is present … you might consider whether the quality of the filter is an issue. A linear polarizer can have a detrimental impact on phase-detect auto-focus (it wont impact contrast-detect focus systems). But a “circular polarizer” (adds a quarter-wave plate behind the linear polarizer) _helps_ the phase-detect focus systems (just make sure it is a circular polarizer).
Apart from that … what’s the filter brand? Possibly the optical quality of the filter itself is at issue.
Once upon a time, it was artistic to deliberately allow part of the filter to have poor optical quality and you did this by taking a clear glass filter (often it was just the UV “sky” filter) and smear a thin coat of petroleum jelly only around the periphery of the filter but leave the center clear. This scattered only a percentage of the light but allowed part of the light to pass through unchanged. The result is a subject that looks sharp … and yet looks as if they are in a foggy mist. There were commercially made filters to achieve the same effect often named “spot diffusion” filters. I don’t see people doing this so much anymore … but it is an example to point out that harming the optical quality of the filter will result in a soft-focus.
Tim Campbell
5D III, 5D IV, 60Da
