Spring Flowers 2014: Ranunculus ficaria - Lesser Celandine - 80mm Quartz Fluorite lens for deep reflected ultraviolet photography

Here today deep UV studio shots of the well known Ranunculus ficaria - Lesser Celandine early spring flower. Shots were done aside from visible photography in reflected ultraviolet using Baader-U filter as well as several UV only transmitting narrowband filters. Lens used my X80QF f3.2 / 80mm Quartz Fluorite lens. Light source was a modified Xenon flash. All shots were done at approx. f11.

[click on image to see a larger one]

Visible light image:  

UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):  

UV image using Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):  

UV image using Saturn-U filter (approx. 300-350nm, effective peak approx. 325nm):  

UV image using Uranus-U filter (approx. 300-325nm, effective peak approx. 313nm):  

UV image using Neptun-U filter (approx. 290-330nm, effective peak approx. 310nm):  

Hexaptych of the above images:  


This Lesser Celandine flower has a well known bulls-eye UV pattern, this time down to 300nm and beyond. Its center is UV dark, but its petals are strong UV reflective around 365nm, ie. UV bright, both invisible to us humans. The X80QF apo quartz fluorite lens makes all that nicely visible.


Stay tuned, more will follow on that fascinating subject...

Winter Jasmine - Jasminum nudiflorum using X80QF for deep UV reflected ultraviolet photography

Today deep UV shots of that decorative winter flower Winter Jasmine - Jasminum nudiflorum in reflected ultraviolet using Baader-U filter as well as several UV only transmitting narrowband filters. Lens used was my X80QF f3.2 / 80mm quartz flourite lens. Light source was a modified Xenon flash. All shots were done at f11.

[click on image to see a larger one]

Visible light image:  

UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):  

UV image using Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):  

UV image using Saturn-U filter (approx. 300-350nm, effective peak approx. 325nm):  

UV image using Uranus-U filter (approx. 300-325nm, effective peak approx. 313nm):  

UV image using Neptun-U filter (approx. 290-330nm, effective peak approx. 310nm):  

Hexaptych of the above images:  


This attractive winter flower shows its very specific UV pattern, this time down to 300nm and beyond. Its center is UV dark, but its petals are strong UV reflective around 365nm, ie. UV bright, both invisible to us humans. The X80QF apo quartz fluorite lens makes all that nicely visible.


Stay tuned, more will follow on that fascinating subject...

Treasury flower - Gazania rigens in deep reflected ultraviolet photography, simulated butterfly and bee vision IV

Today about my last surviving Gazania flower Treasury flower - Gazania rigens in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter as well as my XBV filters for simulating bee and butterfly vision, but this time additionally also the Jupiter-U (280-385nm, eff. 365nm) and Saturn-U (300-350nm, eff. 325nm) filters. Lens used was the 94mm CERCO quartz fluorite lens. Light source was a modified for UV high power Xenon flash.

[click on image to see a larger one]

Visible light image using UV/IR cut filter:
 

UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
 

UV image using Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):
 

UV image using Saturn-U filter (approx. 300-350nm, effective peak approx. 325nm):
 

UV image using Deep UV filter (approx.300 - 315nm, effective peak approx. 308nm):
 

Simulated butterfly vision (UV - VIS) using XBV3 filter:
 

Polyptych of the above:
 


Interesting to notice, how the visible details change when the used wavelength gets shorter and the then appearance of unique colors. The outer petals reflect strongly UV around 370nm, there are also highly reflecting marks inside around a dark UV center and all that gets nicely visible, which I have also previously shown.

There is a Part III about this same flower using filter stacks 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

Treasury flower - Gazania rigens in deep reflected ultraviolet photography, simulated butterfly and bee vision

Today about a Gazania flower Treasury flower - Gazania rigens in reflected ultraviolet photography using my "work horse" UV filter, the Baader-U filter as well as my XBV filters for simulating bee and butterfly vision, but this time additionally also the Jupiter-U (280-385nm, eff. 365nm) and Saturn-U (300-350nm, eff. 325nm) filters. Lens used was the 94mm CERCO quartz fluorite lens. Light source was a modified for UV high power Xenon flash.

[click on image to see a larger one]

Visible light image using UV/IR cut filter:
 

UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
 

UV image using Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):
 

UV image using Saturn-U filter (approx. 300-350nm, effective peak approx. 325nm):
 

Simulated butterfly vision (UV - VIS) using XBV3 filter:
 

Simulated bee vision (UV - VIS) using XBV5 filter:
 

Simulated bee vision (UV - VIS) using XBV6 filter:
 

Infrared light image using IR filter:
 

Polyptych of the above:
 


Interesting to notice, how the visible details change when the used wavelength gets shorter and the then appearance of unique colors. The outer petals reflect strongly UV around 370nm, there are also highly reflecting marks inside around a dark UV center and that all gets nicely visible.

There is a Part II about this same flower using filter stacks 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

Deep UV reflected photography - Uranus-U filter

Today again about that Phalaenopsis orchid, but this time used as a target for deep UV reflected photography. Usually I use my "work horse" UV filter, the Baader-U filter, but this time also the Saturn-U (300-350nm, eff. 325nm) and Uranus-U (300-325nm, eff. 313nm) filter, the latter newly introduced here now. Lens used was the 94mm CERCO quartz fluorite lens. Light source was a modified for UV high power Xenon flash.

Here now some results: [click on image to see a larger one]

visible light image using UV/IR cut filter:
 

UV image using Baader-U filter (approx. 320-395nm, effective peak approx. 375nm):
 

UV image using Jupiter-U filter (approx. 280-385nm, effective peak approx. 365nm):
 

UV image using Saturn-U filter (approx. 300-350nm, effective peak approx. 325nm):
 

UV image using Uranus-U filter (approx. 300-325nm, effective peak approx. 313nm):
 


Interesting to notice, how the visible details change when the used wavelength gets shorter and the appearance of that turquoise color. I'm looking forward to testing this with flowers having more prominent UV patterns, once spring 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

[UV] 340nm Jupiter-U filter for short wave reflected UV

Today about a new prototype filter of mine. It is called "Jupiter-U" and it is a shorter wave filter than the Baader U (Venus) filter, that I mainly use for reflected UV photography. Its center wavelength is around 340nm.

[click on image to see a larger one]

It is a shorter wave filter (center is 340nm) and its transmission is this, as compared to the Baader (Venus) U filter (red line): Here now some first impression about using the Jupiter-U filter. Target was a Gazania flower. Left: Venus U2, right Jupiter-U: Here VIS comparison shots: Baader-U (Venus U): Jupiter-U: Interesting to note the metallic golden rendering of leafs: Here now using a bred Kalanchoe floower in a quadriptych showing the VIS image (top left), Baader U2 (top right), Jupiter-U (bottom left), special 300-350nm filter (bottom right) and in more detail: If you look closer at the flower center, you'll notice only in the two shorter wave shots on the bottom a variation of reflectance (indicated by changing colors)

[To make things clear, this is a filter for my work, it is not for sale.]

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

[UV] Mirablis jalapa in reflected ultraviolet light and deep UV

The astonishing Mirabilis jalapa in various wavebands, broadband UV using Baader U filter (320-390nm) and a special 300-350nm filter. Shots from last autumn.

VIS:


UV: Baader U2


UV: 300-350nm



The shorter the UV waveband used gets, the more details the flower reveals.


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

[UV] Phalaenopsis flower at 300-350nm reflected UV ultraviolet photography

I have previously shown here, how the world looks like at 300-350nm. Now more how a flower (Phalaenopsis in that case) looks like at 300-350nm in reflected UV photography in comparison to using a Baader U filter (320-390nm) and in normal visible light.

[click on image to see a larger one]

Visible light:


UV: Baader U filter:


UV: 330-370nm:


UV: 300-350nm:


In the last 300-350nm shot, the colors denote: yellowish green is 330-345nm, blue is <325nm.

These triptychs will show the differences side-a-side:





The shorter the waveband used gets, the more details the flowers reveals.


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