Far UVA
Nikon D850M-FS (monochrome converted, fused silicon coverglass)
Nikkor 105mm UV [fused quartz and calcium carbonate]
LDP LLC 330C 330nm filter [UVA ends at 320nm]
Flashpoint Rapid 1200 (bare bulb) and XPLOR 1200 (covered bulb)
Note the high reflectivity from the fingernail polish and her jewelry.
The bright door behind her is dull in the visual spectrum but metallic bright here.
At 330nm the skin is translucent and has unique sheen, the tissues underneath absorb ultraviolet
smf85 wrote:
Far UVA
Nikon D850M-FS (monochrome converted, fused silicon coverglass)
LDP LLC 330C 330nm filter [UVA ends at 320nm]
Flashpoint Rapid 1200 (bare bulb) and XPLOR 1200 (covered bulb)
Note the high reflectivity from the fingernail polish and metal objects.
The bright door behind her is dull in the visual spectrum.
Beautiful model. Far UVA not my thing
smf85 wrote:
Far UVA
Nikon D850M-FS (monochrome converted, fused silicon coverglass)
Nikkor 105mm UV [fused quartz and calcium carbonate]
LDP LLC 330C 330nm filter [UVA ends at 320nm]
Flashpoint Rapid 1200 (bare bulb) and XPLOR 1200 (covered bulb)
Note the high reflectivity from the fingernail polish and her jewelry.
The bright door behind her is dull in the visual spectrum but metallic bright here.
At 330nm the skin is translucent and has unique sheen, the tissues underneath absorb ultraviolet
Far UVA br br Nikon D850M-FS (monochrome converte... (
show quote)
Michaela is beautiful. The treatment not so much, it makes the model look as if she were spray painted.
The fingernails and jewelry have specular reflections--would look much the same at any wavelength.
Beautiful, looks like an onyx statue coming to life. Thanks for sharing it.
Indeed a toasted beauty.
Lenses for UV... a discussion
https://www.randombio.com/uvlens.htmlI am thinking a pinhole approach is a possibility. Lots of info out there.
Whole new world UV...Near IR is easy... UV vastly different opposite end of the near visable spectra.
Whoa! Black like Me in UV.
melismus wrote:
The fingernails and jewelry have specular reflections--would look much the same at any wavelength.
Look the same, very much so, they're just a lot brighter in UV.
Very interesting and well done.
I always thought everyone was Black underneath. Maybe we all need to wear UV glasses.
bdk
Loc: Sanibel Fl.
great shot, but im not a fan of the effect. Though Id like to give it a try...
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