[click on image gets you a larger image]
VIS image using UV/IR Cut filter:
UV image using IDAS UV filter (approx. 330-370nm) at f5.6:
UV image using IDAS UV filter (approx. 330-370nm) at f8:
UV image using IDAS UV filter (approx. 330-370nm) at f11:
UV image using IDAS UV filter (approx. 330-370nm) at f16:
UV image using 340nm UV filter (approx. 320-340nm) at f5.6:
UV image using 340nm UV filter (approx. 320-340nm) at f8:
UV image using 340nm UV filter (approx. 320-340nm) at f11:
UV image using 340nm UV filter (approx. 320-340nm) at f16:
VIS and UV (IDAS) image side-by-side both at f8:
VIS and UV (340nm) image side-by-side both at f8:
As I had mentioned before, it got pretty clear that this lens has a very high UV performance, as at 365nm it transmits around 75%. Its peak transmission with Baader-U filter attached is around 68% at 360nm. At shorter wavelengths it still has a very useful 56% transmission at 340nm and 22% at 320nm.
Before I had shown here, that stopping down has improved sharpness significantly, especially in reflected UV light using the Baader-U filter. Now it gets quite obvious, that this lens is also performing very well at even shorter wavelengths, making it a very useful lens for reflected UV down to 330-340nm at an optimal f8/f11 setting, especially since the image size deviation between visible and UV image is also only 1.3% there .
I have written about that lens more HERE.
Stay tuned, more will follow on that fascinating subject...
More info on this very interesting field may be found on my site http://www.pbase.com/kds315/uv_photos