A while ago I had the honor to work with Neal Larson on a paper on fossilized cephalopods found in Hajoula, Lebanon. Today it is again about enhancing the visibility of fossil bone and tissue structures using UV reflected and UV stimulated visible fluorescence photography, but as it is some years later, using more modern equipment now. I will also use my remapping technology consisting of a visible image, a reflected UV image and an UV stimulated visible fluorescence image and combine them into multispectral images.
Lens used was my CERCO f4.1 / 94mm quartz fluorite lens, light sources were a modified high power Xenon flash, as well as a NICHIA 365nm Power LED. Target was a fossilized fish from Solnhofen, Germany, approx. 100 Mio years old.
[click on image to see a larger one]
Visible light image using UV/IR Cut filter:
Reflected UV image using Baader-U filter (310-390nm):
UV stimulated visible fluorescence (FL) using Nichia 365nm UV LED:
Combined VIS - FL multispectral image:
Combined VIS - UV multispectral image::
Combined FL - UV multispectral image::
It gets nicely visible that using UV light photography brings out much more details than normal visible light photography and by doing so, enhances the visibility of preserved bone and tissue structures quite a bit. Combining those different images into falso color multispectral images enhances the structures even more.
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
Sunday, November 16, 2014
Enhancing the visibility of fossil tissue structures using UV reflected and UV stimulated visible flourescence photography
Gepostet von Dr Klaus Schmitt unter 4:47 PM
Labels: 365nm, Baader U, Cerco, fluorescence, fossil, fossilzed fish, high power flash, Larson, Nichia UV LED, quartz fluorite lens, reflected UV, Solnhofen, ultraviolet, UV, Xenon