Here a few of my works as shown before, today presented in quadriptych form, which will be on exhibit, also available as large format prints, just for enjoyment for the nice readers here I thought. Please be fair, respect my work and do not download or distribute those around. I don't mind linking, if proper credit is given to me as is visible in each image, but do ask me first please.
Also those comprise some 10 years of intense work to make visible the beauty around us, even if it is invisible to our human eyes. All colors shown are real, there when I pressed the trigger, no photoshopping done except fine adjustments, using specialized cameras, special filters, special lightsources and very special lenses. The differences in colors visiblem results from the different UV reflection of those flowers, some do not reflect at all, or differently in different parts of the flower.
Some insects (butterflies, Bees, ...) and animals (birds, fish, degus,..) can see ultraviolet (UV) light, bees for instance can see Green and Blue and UV, but no RED but butterflies and birds can see Red, Green and Blue and UV, so both can see what we humans cannot see, so I developed an optical mapping method, which allows to simulate, how we would see the world, if we had such special receptive eyes.
Some of my technique is described in my BLOG uvir.eu and I also teach and lecture about that. Ask me if there is some interest, I'm happy to come by!
[click on image to see a larger one]
Zinnia hybride (visible, simulated butterfly, bee vision and ultraviolet UV):
Rudbeckia hirta (visible, simulated butterfly, bee vision and ultraviolet UV):
Gazania sp. (visible, simulated butterfly, bee vision and ultraviolet UV):
Zinnia angustifolia (1st: visible, bee vision, long wave ultraviolet UV, ultraviolet UV stimulated visible fluorescence; 2nd: short wave ultraviolet UV, shorter wave ultraviolet UV, ultraviolet UV stimulated visible fluorescence, near infrared IR):
watch here, there will be more to come...
I hope you enjoy the beauty!
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.
Tuesday, March 26, 2013
Sunday, March 17, 2013
Invisible World Photography - some best of reflected ultraviolet, bee + butterfly vision
Here a few of my works, which will be on exhibit soon and also available as large format prints, just some "eye candy" for the nice readers here I thought. Please be fair, respect my work and do not download or distribute those around. I don't mind linking, if proper credit is given to me as is visible in each image, but do ask me first please.
These comprise some 10 years of intense work to make visible the beauty around us, even if it is invisible to our human eyes. All colors shown are real, there when I pressed the trigger, no photoshopping done except fine adjustments, using specialized cameras, special filters, special lightsources and very special lenses. The differences in colors visiblem results from the different UV reflection of those flowers, some do not reflect at all, or differently in different parts of the flower.
Some insects and animals (birds, fish, degus,..) can see ultraviolet (UV) light, bees for instance can see Green and Blue and UV, but no RED but butterflies and birds can see Red, Green and Blue and UV, so both can see what we humans cannot see, so I developed an optical mapping method, which allows to simulate, how we would see the world, if we had such special receptive eyes.
Some of my technique is described in my BLOG uvir.eu and I also teach and lecture about that. Ask me if there is some interest, I'm happy to come by!
[click on image to see a larger one]
Zinnia hybride (visible, ultraviolet UV, simulated butterfly and bee vision):
Rudbeckia hirta (visible, ultraviolet UV, simulated butterfly and bee vision):
Gazania sp. (visible, ultraviolet UV, simulated butterfly and bee vision):
There is a part II HERE.
I hope you enjoy the beauty!
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
These comprise some 10 years of intense work to make visible the beauty around us, even if it is invisible to our human eyes. All colors shown are real, there when I pressed the trigger, no photoshopping done except fine adjustments, using specialized cameras, special filters, special lightsources and very special lenses. The differences in colors visiblem results from the different UV reflection of those flowers, some do not reflect at all, or differently in different parts of the flower.
Some insects and animals (birds, fish, degus,..) can see ultraviolet (UV) light, bees for instance can see Green and Blue and UV, but no RED but butterflies and birds can see Red, Green and Blue and UV, so both can see what we humans cannot see, so I developed an optical mapping method, which allows to simulate, how we would see the world, if we had such special receptive eyes.
Some of my technique is described in my BLOG uvir.eu and I also teach and lecture about that. Ask me if there is some interest, I'm happy to come by!
[click on image to see a larger one]
Zinnia hybride (visible, ultraviolet UV, simulated butterfly and bee vision):
Rudbeckia hirta (visible, ultraviolet UV, simulated butterfly and bee vision):
Gazania sp. (visible, ultraviolet UV, simulated butterfly and bee vision):
There is a part II HERE.
I hope you enjoy the beauty!
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, March 12, 2013
Three 40mm lenses for reflected UV photography
Today about a comparison of three lenses of 40mm focal length for reflected UV, one a Cooke Triplet (C40), one a Dialyte design (D40), one a complex Sonnar design (S40) whose makers will be revealed here later - or simply contact me about it. The best of the three will also compared against the Kuribayashi 35mm. I'm using a yellow/red Phalaenopsis flower for that and my "work horse" UV filter, the Baader-U filter. Light source was an UV enhanced Xenon flash. All shots were done at f8 and are presented in a side-a-side format for easier comparison.
[click on image to see a larger one]
UV image using the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm) - Cooke left, Dialyte middle, Sonnar right:
Here the three contestants present themselves side-a-side: It gets obvious, that the Sonnar is the softest of the three and has a bit less UV transmission (the latter had to be expected). The Cooke triplet lens and especially the Dialyte however show some respectable sharpness. So lets's have a closer look at the latter two.
UV image using the Baader-U filter - Cooke left, Dialyte right:
Here, the Dialyte has an edge over the Triplet, quite higher micro-contrast and higher detail reproduction, quite remarkable, considering it is an old prewar lens, and uncoated. So let's see how that Dialyte performs against the Kuribayashi 35mm.
UV image using the Baader-U filter - Dialyte lft, Kuribayashi 35mm right:
Here now it is hard to choose a winner, as both have very high sharpness and contrast, quite remarkable considering their age difference. I'm undicided honestly.
Transmission graph:
The Triplet is represented by a yellow line, the Dialyte by a reddish brown line, the Sonnar by a blue line and finally the Kuribayashi by a pink line. Transmisson of all lenses is quite high, at 365nm Sonnar: 60%, Dialyte: 64%, Triplet: 70% and finally the Kuribayashi 77%. Their reach into UV is quite remarkable, the Kuribayashi and Dialyte having the deepest, Triplet surprisingly the least, maybe caused by its bluish coating. So overall, some remarkable lenses for reflected UV.
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]
UV image using the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm) - Cooke left, Dialyte middle, Sonnar right:
Here the three contestants present themselves side-a-side: It gets obvious, that the Sonnar is the softest of the three and has a bit less UV transmission (the latter had to be expected). The Cooke triplet lens and especially the Dialyte however show some respectable sharpness. So lets's have a closer look at the latter two.
UV image using the Baader-U filter - Cooke left, Dialyte right:
Here, the Dialyte has an edge over the Triplet, quite higher micro-contrast and higher detail reproduction, quite remarkable, considering it is an old prewar lens, and uncoated. So let's see how that Dialyte performs against the Kuribayashi 35mm.
UV image using the Baader-U filter - Dialyte lft, Kuribayashi 35mm right:
Here now it is hard to choose a winner, as both have very high sharpness and contrast, quite remarkable considering their age difference. I'm undicided honestly.
Transmission graph:
The Triplet is represented by a yellow line, the Dialyte by a reddish brown line, the Sonnar by a blue line and finally the Kuribayashi by a pink line. Transmisson of all lenses is quite high, at 365nm Sonnar: 60%, Dialyte: 64%, Triplet: 70% and finally the Kuribayashi 77%. Their reach into UV is quite remarkable, the Kuribayashi and Dialyte having the deepest, Triplet surprisingly the least, maybe caused by its bluish coating. So overall, some remarkable lenses for reflected UV.
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
35mm BESLAR enlarger lens for reflected UV photography
Today again about a simple, but as it turned out, quite UV capable BESLAR f3.5/35mm enlarger lens. I have done a similar enlarger lens comparison for a 100mm lens here and here and a comparison for 50mm lenses previously here. I'm using a yellow/red Phalaenopsis flower for that and my "work horse" UV filter, the Baader-U filter plus the deeper reaching Jupiter-U filter. Light source was an UV enhanced Xenon flash. All shots were done at f8 and are presented in a side-a-side format for easier comparison.
[click on image to see a larger one]
Images showing on the left a visible light image and on the right using the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
UV images using shown on the left the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm) and on the right my Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):
UV detail images using shown on the left the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm) and on the right my Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):
Transmission graph:
Well, this little enlarger lens performs acceptably well, seemingly has quite a high UV transmission of about 80% and quite a deep reach into the UV region to about 320nm (white line), compared to my new standard 35mm lens (green line), the Kuribayashi 35mm. I also tested a rebadged version under a different moniker (pink line) which seems to perform about identical.
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]
Images showing on the left a visible light image and on the right using the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
UV images using shown on the left the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm) and on the right my Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):
UV detail images using shown on the left the Baader-U filter (approx. 320-395nm, effective peak approx. 375nm) and on the right my Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):
Transmission graph:
Well, this little enlarger lens performs acceptably well, seemingly has quite a high UV transmission of about 80% and quite a deep reach into the UV region to about 320nm (white line), compared to my new standard 35mm lens (green line), the Kuribayashi 35mm. I also tested a rebadged version under a different moniker (pink line) which seems to perform about identical.
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
Thursday, March 7, 2013
Anemone narcissiflora - Cerco 94mm Quartz Fluorite lens for reflected ultraviolet photography
Today about some early spring flowers, here Anemone narcissiflora (most likely, but looks like a white variant of Liverwort "Anemone hepatica") in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter as well as my XBV filters for simulating butterfly and bee vision. Lens was a CERCO 94mm quartz fluorite lens. Light source was sunlight. All shots were done at about f5.6. So, on to the results now...
[click on image to see a larger one]
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
Simulated butterfly vision (UV - VIS) using XBV3 filter:
Simulated bee vision (UV - VIS) using XBV6 filter:
Quadtryptich of the above:
This Anemone has only a very slight UV pattern, its center is UV dark and this gets nicely visible.
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:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
Simulated butterfly vision (UV - VIS) using XBV3 filter:
Simulated bee vision (UV - VIS) using XBV6 filter:
Quadtryptich of the above:
This Anemone has only a very slight UV pattern, its center is UV dark and this gets nicely visible.
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, March 6, 2013
Spring Crocus - Cerco 94mm Quartz Fluorite lens for reflected ultraviolet photography
Today about some early spring flowers, here Crocus (Crocus sp.) in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter. Lens was a CERCO 94mm quartz fluorite lens. Light source was sunlight. All shots were done at about f5.6. So, on to the results now...
[click on image to see a larger one]
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
Simulated butterfly vision (UV - VIS) using XBV3 filter:
Simulated bee vision (UV - VIS) using XBV6 filter:
Quadtryptich of the above:
Crocus usually is reflecting only in long wave UV around 380nm, visible as a bluish violet and its center (anthers, stamen) is UV dark, which gets nicely visible 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:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
Simulated butterfly vision (UV - VIS) using XBV3 filter:
Simulated bee vision (UV - VIS) using XBV6 filter:
Quadtryptich of the above:
Crocus usually is reflecting only in long wave UV around 380nm, visible as a bluish violet and its center (anthers, stamen) is UV dark, which gets nicely visible 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
Winter Aconite - Cerco 94mm Quartz Fluorite lens for reflected ultraviolet photography
Today about some early spring flowers, here Winter Aconite (Eranthis hyemalis) in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter as well as my XBV filters for simulating butterfly and bee vision. Lens was a CERCO 94mm quartz fluorite lens. Light source was sunlight. All shots were done at about f5.6. So, on to the results now...
[click on image to see a larger one]
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
Simulated butterfly vision (UV - VIS) using XBV3 filter:
Simulated bee vision (UV - VIS) using XBV6 filter:
Quadtryptich of the above:
Winter Aconite has a prominent UV pattern, its center (anthers, stamen) is UV dark, and the petal ground seems to have some highly reflecting spots radially centered around the stamen which gets nicely visible.
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:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
Simulated butterfly vision (UV - VIS) using XBV3 filter:
Simulated bee vision (UV - VIS) using XBV6 filter:
Quadtryptich of the above:
Winter Aconite has a prominent UV pattern, its center (anthers, stamen) is UV dark, and the petal ground seems to have some highly reflecting spots radially centered around the stamen which gets nicely visible.
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, March 5, 2013
Spring Flowers 2013 - 100mm Focotar enlarger lens for reflected ultraviolet photography
Today about the same early spring Irises shot in reflected ultraviolet photography that I had shown before when shot with the Cerco quartz fluorite lens. Filter used was my "work horse" UV filter, the Baader-U filter. Lens used was an old 100mm Focotar enlarger lens. Light source was the last sunrays of that wonderful spring Sunday. All shots were done at about f8. So, on to the results now...
[click on image to see a larger one]
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
So, I hope you enjoy seeing some early spring flowering Irises!
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:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
So, I hope you enjoy seeing some early spring flowering Irises!
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, March 3, 2013
Spring Flowers 2013 - Cerco 94mm Quartz Fluorite lens for reflected ultraviolet photography II
Today about some early spring Irises in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter. Lens was a CERCO 94mm quartz fluorite lens. Light source was the last sunrays of that wonderful spring Sunday. All shots were done at about f5.6. So, on to the results now...
[click on image to see a larger one]
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
So, I hope you enjoy seeing some early spring flowering Irises!
There is a comparative series using teh same flowers shot with an old 100mm Focotar enlarger lens 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:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
Visible light image:
UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
VIS-IR image using no filter:
So, I hope you enjoy seeing some early spring flowering Irises!
There is a comparative series using teh same flowers shot with an old 100mm Focotar enlarger lens 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