Today a comparison between the well known UV-Nikkor 105mm lens and the hardly known Steinheil Quinon f2.8/152mm lens (this lens seems to be a prototype as a f2.8 Quinon is not known, not even in the Steinheil production list). I'm using a white Phalaenopsis flower for that comparison and my work horse UV filter, the Baader-U filter. Light source was an UV enhanced Xenon flash as well as a Nichia 365nm UV LED. All shots done at f11.
[click on image to see a larger one]
Steinheil 152mm: UV image using Baader-U filter (approx. 320-395nm) and Xenon flash:
UV-Nikkor 105mm: UV image using Baader-U filter (approx. 320-395nm) and Xenon flash:
Steinheil 152mm: UV image using Baader-U filter (approx. 320-395nm) and UV LED:
UV-Nikkor 105mm UV image using Baader-U filter (approx. 320-395nm) and UV LED:
Comparison, UV-Nikkor image scaled to fit Steinheil:
That Steinheil lens transmits down to about 340nm and at 365nm has about 35% transmission.
This comparison shows, that the UV-Nikkor 105mm is very hard to beat, but finding a longer focal length UV-capable lens is a hard thing to do, so that Steinheil seems to be rather useful!
I have written about other Steinheil lenses 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
My BLOG about my journey into the invisible world of ultraviolet UV photography, simulated bee, butterfly and animal vision photography and the special lenses, filters and lighting needed to make it work - also in HD video + 3D stereo.
Wednesday, April 29, 2020
Tuesday, April 28, 2020
Enhancing the visibility of fossil tissue structures using UV reflected and UV stimulated visible flourescence photography II
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 reflected UV and UV stimulated visible fluorescence photography, but as it is some years later, using more modern equipment now. Lens used was my UV-Nikkor 105mm quartz fluorite lens, light sources were a modified high power Xenon flash, as well as a NICHIA 365nm LED. Filters used were the Baader-U filter as well as a 420nm Long Pass filter. Target was a fossilized squid from the Upper Cretaceous period, approx. 90 million 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) with 365nm UV LED:
Reflected UV image using Baader-U filter (310-390nm) with 365nm UV LED (in bw):
UV stimulated visible Fluorescence image with 420nm Longpass filter:
UV stimulated visible Fluorescence image, 2nd version, with UV-IR Cut filter:
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 quite a bit.
I have written more about fossils 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
[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) with 365nm UV LED:
Reflected UV image using Baader-U filter (310-390nm) with 365nm UV LED (in bw):
UV stimulated visible Fluorescence image with 420nm Longpass filter:
UV stimulated visible Fluorescence image, 2nd version, with UV-IR Cut filter:
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 quite a bit.
I have written more about fossils 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
Monday, April 27, 2020
Treasury flower - Gazania rigens in reflected ultraviolet photography and simulated bee and butterfly vision XXIX
Today in 2020 some first outdoor shots of that long blooming flower, a orange-red Gazania flower, the Treasury flower - Gazania rigens shot in reflected ultraviolet photography, simulated bee and butterfly vision. All shots were done at f8 in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter, as well as my XBV filters for simulated bee and butterfly vision. Lens was a UV-Nikkor 105mm quartz fluorite lens. Light source was sunlight with some Nichia 365nm UV-LED support.
[click on image to see a larger one]
Human vision:
Reflected UV:
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, UV, simulated butterfly and bee vision (left to right, top to bottom):
This Gazania's outer petals strongly reflect UV around 365nm, whereas the inner petal parts are quite darker, hence forming UV nectar guides for UV seeing insects. There are also some highly UV reflecting marks inside around a dark UV center, all invisible to us humans, but clearly visible to bees and butterflies, and all this gets nicely visible here, also in simulated bee and butterfly vision.
I have written about this Gazania previously 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
[click on image to see a larger one]
Human vision:
Reflected UV:
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, UV, simulated butterfly and bee vision (left to right, top to bottom):
This Gazania's outer petals strongly reflect UV around 365nm, whereas the inner petal parts are quite darker, hence forming UV nectar guides for UV seeing insects. There are also some highly UV reflecting marks inside around a dark UV center, all invisible to us humans, but clearly visible to bees and butterflies, and all this gets nicely visible here, also in simulated bee and butterfly vision.
I have written about this Gazania previously 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
Reflected UV photography in polarized light X - Gazania
Today more about UV polarizer experiments, using a special UV capable circular polarizer in front of my multispectral camera and UV-Nikkor 105mm lens, for recording polarized reflected UV images. Flower here was a long blooming, perennial flower Gazania . UV filter used was my classic Baader-U filter; sun was used as light source.
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gif....
Gazania flower through a rotating circular polarizer in A-mode i.e. exposure compensated...
Reflected UV light - Sunlight:
This flower shows some interesting changes in the polarization angle especially on its anters. Bees have sensors on the outer ring of their compound eyes which are able to detect polarized light, so that might give this flower an advantage.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
I have written more about that Gazania flower 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
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gif....
Gazania flower through a rotating circular polarizer in A-mode i.e. exposure compensated...
Reflected UV light - Sunlight:
This flower shows some interesting changes in the polarization angle especially on its anters. Bees have sensors on the outer ring of their compound eyes which are able to detect polarized light, so that might give this flower an advantage.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
I have written more about that Gazania flower 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
Saturday, April 25, 2020
Reflected UV photography in polarized light IX - the Midas effect
Today more about UV polarizer experiments, using a special UV capable circular polarizer in front of my multispectral camera and UV-Nikkor 105mm lens, for recording some polarized reflected UV images. Object used were some leaves of a shrub. UV filter used was my classic Baader-U filter; Sunlight was used as light source. And a secret was used - but no, not a spraycan ;-)
[click on image gets you a larger image]
Here photographic results I got today. I called it the "Midas effect", I'm sure you'll notice why...
First Gold:
Then Silver:
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
[click on image gets you a larger image]
Here photographic results I got today. I called it the "Midas effect", I'm sure you'll notice why...
First Gold:
Then Silver:
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
Tuesday, April 21, 2020
Reflected UV photography in polarized light VIII - Mica
Today more about UV polarizer experiments, using a special UV capable circular polarizer in front of my multispectral camera and UV-Nikkor 105mm lens, for recording some polarized reflected UV images plus some insect and human vision ones using my XBV filters. Object used was some slices of sheet Mica. UV filter used was my classic Baader-U filter; Xenon full spectrum light was used as light source.
[click on image gets you a larger image]
Here photographic results I got today (took multiple images while moving the Mica sheet), presented as animated gif.
This is more of scientific interest, and I like the different colors one gets. If interested I refer to the famous Michel-Levy Chart which explains that well. What you see here are 2nd order colors.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
[click on image gets you a larger image]
Here photographic results I got today (took multiple images while moving the Mica sheet), presented as animated gif.
This is more of scientific interest, and I like the different colors one gets. If interested I refer to the famous Michel-Levy Chart which explains that well. What you see here are 2nd order colors.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
Sunday, April 19, 2020
Reflected UV photography in polarized light VII - Mica
Today more about UV polarizer experiments, using a special UV capable circular polarizer in front of my multispectral camera and UV-Nikkor 105mm lens, for recording polarized reflected UV images plus some insect and human vision ones using my XBV filters. Object used was some slices of sheet Mica. UV filter used was my classic Baader-U filter; Xenon full spectrum light was used as light source.
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter and changing filters), presented as animated gifs....
This is more of scientific interest, and I like the different colors one gets. If interested I refer to the famous Michel-Levy Chart which explains that well.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter and changing filters), presented as animated gifs....
This is more of scientific interest, and I like the different colors one gets. If interested I refer to the famous Michel-Levy Chart which explains that well.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
Wednesday, April 15, 2020
Reflected UV photography in polarized light VI - Lewisia
Today more about UV polarizer experiments, using a special UV capable circular polarizer in front of my multispectral camera and UV-Nikkor 105mm lens, for recording polarized reflected UV images. Flower here was a long blooming, perennial spring flower Cliff maids - Lewisia cotyledon. UV filter used was my classic Baader-U filter; sun was used as light source.
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gifs....
Lewisia flowers through a rotating circular polarizer in A-mode i.e. exposure compensated...
Reflected UV light - Sunlight:
This flower shows some interesting small changes in the polarization angle on the petals, but especially there is some on its anters. Bees have sensors on the outer ring of their compound eyes which are able to detect polarized light, so that might give this flower an advantage.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
I have written more about that Lewisia flower 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
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gifs....
Lewisia flowers through a rotating circular polarizer in A-mode i.e. exposure compensated...
Reflected UV light - Sunlight:
This flower shows some interesting small changes in the polarization angle on the petals, but especially there is some on its anters. Bees have sensors on the outer ring of their compound eyes which are able to detect polarized light, so that might give this flower an advantage.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
I have written more about that Lewisia flower 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
Saturday, April 11, 2020
Reflected UV photography in polarized light V - Cross Polarization
Today more about UV polarizer experiments, using a special UV capable circular polarizer reaching down to approx. 320nm in front of my multispectral camera and UV-Nikkor 105mm lens, for recording polarized reflected UV images. But this time also the light source, my Xenon studio flash, had a special UV capable circular polarizer mounted. Object was a blue glass vase set on an aluminum lab jack. UV filter used was my classic Baader-U filter; Light source used was a modified for high UV output Xenon studio flash.
This research about using cross polarization in utraviolet light was stimulated by discussions with my colleague Dr Jonathan Crowther of JMC Scientific Consulting
[click on image gets you a larger image]
Visible Light 0-degrees:
Visible Light 45-degrees:
Visible Light 90-degrees:
Reflected ultraviolet (UV) light through Baader-U filter (320-390nm:
Reflected UV 0-degrees:
Reflected UV 45-degrees:
Reflected UV 90-degrees:
Hexaptych Visible vs UV light at 0-45-90 degrees (left to right, top to bottom):
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. This only works for UV light, if using the right polarizers, which allow sufficient UV to pass without loosing the ability to polarize.
Downside of using polarizers is that one needs about 2 stops more exposure, due to the low approx. 25% transmission. Cross-polarization now allows to suppress shine and reflections, which can prove very useful at times. But that requires even more light, as the light loss is much larger even, which for reflected UV photography working at 8-10 stops below normal visible light photography might be cumbersome at times, requiring high ISO values, longer exposure times and strong light sources.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
This research about using cross polarization in utraviolet light was stimulated by discussions with my colleague Dr Jonathan Crowther of JMC Scientific Consulting
[click on image gets you a larger image]
Visible Light 0-degrees:
Visible Light 45-degrees:
Visible Light 90-degrees:
Reflected ultraviolet (UV) light through Baader-U filter (320-390nm:
Reflected UV 0-degrees:
Reflected UV 45-degrees:
Reflected UV 90-degrees:
Hexaptych Visible vs UV light at 0-45-90 degrees (left to right, top to bottom):
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. This only works for UV light, if using the right polarizers, which allow sufficient UV to pass without loosing the ability to polarize.
Downside of using polarizers is that one needs about 2 stops more exposure, due to the low approx. 25% transmission. Cross-polarization now allows to suppress shine and reflections, which can prove very useful at times. But that requires even more light, as the light loss is much larger even, which for reflected UV photography working at 8-10 stops below normal visible light photography might be cumbersome at times, requiring high ISO values, longer exposure times and strong light sources.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers 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
Friday, April 10, 2020
Cliff maids - Lewisia cotyledon in reflected ultraviolet photography, simulated bee and butterfly vision III
Today more shots of a long blooming, perennial spring flower Cliff maids - Lewisia cotyledon in reflected ultraviolet photography and simulated bee and butterfly vision. All shots were done at f8 in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter, as well as my XBV filters for simulated bee and butterfly vision. Lens was a UV-Nikkor 105mm quartz fluorite lens. Light source was sunlight.
[click on image to see a larger one]
Human vision:
Reflected UV:
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, UV, simulated bee and butterfly vision (left to right, top to bottom):
Lewisia has a visible UV pattern, its petal tips are UV bright around 385nm, its center is UV dark, so this gets quite nicely visible, also in simulated butterfly and bee vision.
I have written more about that flower 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
[click on image to see a larger one]
Human vision:
Reflected UV:
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, UV, simulated bee and butterfly vision (left to right, top to bottom):
Lewisia has a visible UV pattern, its petal tips are UV bright around 385nm, its center is UV dark, so this gets quite nicely visible, also in simulated butterfly and bee vision.
I have written more about that flower 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
Tuesday, April 7, 2020
Reflected UV photography in polarized light IV - Saxifraga
Today more about UV polarizer experiments, using a special UV capable circular polarizer in front of my multispectral camera and UV-Nikkor 105mm lens, for recording polarized reflected UV images. Flower here was white Saxifraga - Rockfoil. UV filter used was my classic Baader-U filter; sun was used as light source.
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gifs....
Saxifraga flowers through a rotating circular polarizer in A-mode i.e. exposure compensated...
Visible Light - Sunlight:
Reflected UV light - Sunlight:
Reflected UV light with 365nm UV LED:
Simulated bee vision - Sunlight:
This flower shows some interesting changes in polarization angle on the bottom of its flowers. Bees have sensors on the outer ring of their compound eyes which are able to detect polarized light, so that might give this flower an advantage.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
More about Saxifraga in multispectral photography is 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
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gifs....
Saxifraga flowers through a rotating circular polarizer in A-mode i.e. exposure compensated...
Visible Light - Sunlight:
Reflected UV light - Sunlight:
Reflected UV light with 365nm UV LED:
This flower shows some interesting changes in polarization angle on the bottom of its flowers. Bees have sensors on the outer ring of their compound eyes which are able to detect polarized light, so that might give this flower an advantage.
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
More about Saxifraga in multispectral photography is 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
Sunday, April 5, 2020
Reflected UV photography in polarized light III - Phlox
Today even more about UV polarizer experiments, using a special UV capable circular polarizer in front of my multispectral camera and UV-Nikkor 105mm lens, for recording polarized reflected UV images. Flower here was Phlox - Rockfoil. UV filter used was my classic Baader-U filter; sun was used as light source.
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gifs....
Phlox flower in M-mode i.e. non exposure compensated:
Phlox flower in A-mode i.e. exposure compensated:
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
More about Phlox in multispectral photography is 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
[click on image gets you a larger image]
Here photographic results I got (took multiple images while rotating the filter), presented as animated gifs....
Phlox flower in M-mode i.e. non exposure compensated:
Phlox flower in A-mode i.e. exposure compensated:
Reflected UV photography in polarized light shows quite some usefulness, especially if there are (glossy) surfaces which change the polarization angle of light and which the polarizer filter makes visible. Downside is that one needs about 2 stops more exposure, due to the low approx. 25% transmission.
Some insects are able to see the polarization angle (and btw. we humans can also, but needs some traing: Haidinger's Brush) especially honeybees which navigate using the polarization angle of ultraviolet (UV) light.
I have written more about using UV polarizers HERE
More about Phlox in multispectral photography is 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
Phlox in reflected ultraviolet photography and simulated bee and butterfly vision
Today shots of some beautiful little hot pink flowers Phlox in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter, as well as in simulated bee and butterfly vision using my XBV filters. All shots were done at f11. Lens was a UV-Nikkor 105mm quartz fluorite lens. Light source was sunlight.
[click on image to see a larger one]
Human vision:
Reflected ultraviolet (UV):
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, ultraviolet, simulated butterfly and bee vision (left to right, top to bottom):
This flower shows an interesting dark central ring UV pattern, its petals shine in UV (around 380nm), and all this gets nicely visible, also in simulated bee and butterfly vision.
I have written more about this flower 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
[click on image to see a larger one]
Human vision:
Reflected ultraviolet (UV):
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, ultraviolet, simulated butterfly and bee vision (left to right, top to bottom):
This flower shows an interesting dark central ring UV pattern, its petals shine in UV (around 380nm), and all this gets nicely visible, also in simulated bee and butterfly vision.
I have written more about this flower 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
Rockfoil - Saxifraga in reflected ultraviolet photography and simulated bee and butterfly vision II
Today shots of some beautiful little red flowers Saxifraga - Rockfoil in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter, as well as in simulated bee and butterfly vision using my XBV filters. All shots were done at f11. Lens was a UV-Nikkor 105mm quartz fluorite lens. Light source was sunlight.
[click on image to see a larger one]
Human vision:
Reflected ultraviolet (UV):
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, ultraviolet, simulated bee and butterfly vision (left to right, top to bottom):
This flower shows no very prominent UV pattern, its petals transparently shine somewhat in UV (around 385nm), and all this gets nicely visible, also in simulated bee and butterfly vision.
I have previously written about Saxifraga 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
[click on image to see a larger one]
Human vision:
Reflected ultraviolet (UV):
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, ultraviolet, simulated bee and butterfly vision (left to right, top to bottom):
This flower shows no very prominent UV pattern, its petals transparently shine somewhat in UV (around 385nm), and all this gets nicely visible, also in simulated bee and butterfly vision.
I have previously written about Saxifraga 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
Rockfoil - Saxifraga in reflected ultraviolet photography and simulated bee and butterfly vision I
Today shots of some beautiful little whitish flowers Saxifraga - Rockfoil in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter, as well as in simulated bee and butterfly vision using my XBV filters. All shots were done at f11. Lens was a UV-Nikkor 105mm quartz fluorite lens. Light source was sunlight.
[click on image to see a larger one]
Human vision:
Reflected ultraviolet (UV):
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, ultraviolet, simulated butterfly and bee vision (left to right, top to bottom):
This flower shows no very prominent UV pattern, its petals somewhat transparently shine in UV (around 385nm), and all this gets nicely visible, also in simulated bee and butterfly vision.
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
[click on image to see a larger one]
Human vision:
Reflected ultraviolet (UV):
Simulated butterfly vision:
Simulated bee vision:
Quadriptych of human vision, ultraviolet, simulated butterfly and bee vision (left to right, top to bottom):
This flower shows no very prominent UV pattern, its petals somewhat transparently shine in UV (around 385nm), and all this gets nicely visible, also in simulated bee and butterfly vision.
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