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Experimenting with freelensing, using the Canon EOS XSi and an old Vivitar 35-70mm trad SLR lens held to the opening of the Canon.
I've been studying rock and other natural surfaces for a long time. I try to produce a "random" style in my shapes and their surfaces, and this series seems to show that I've accomplished what I'm after. The "beauty" of these pieces is perhaps up to debate, but I think at least I've accomplished an effect that transcends the human touch. There is little evidence here of "my" work or my imposition of form or surface on the natural ingredients.
So, I rolled these tiles out with leaves and fireplace ash. The leaves impregnated the terracotta, which is about 5 mm thick. When they burnt out they left lots of secret places where you can see depth and sometimes leaf imprints (though the imprints were not my aim at all--I was aiming for the strength the leaves impart to thin raw terracotta).
This was when i was experimenting in different ways to find what i wanted to do with the pictures i took.
Photo inspired by MAUREN BRODBECK who does block colour photography.
The Food Experiment
Philadelphia Sandwich Experiment
Brooklyn Brewery sponsored
Underground Arts
May 6, 2012
Detail of a bracket holding a small glass tube filled with argon gas that contains a twisted nanocarbon in the Kotov Lab at the North Campus Research Center of the University of Michigan in Ann Arbor on Wednesday, December 18, 2024. This experiment is being conducted by COMPASS and Chemical Engineering Research Fellows Jun Lu and Hongju Jung. COMPASS is the Center for Complex Particle Systems which is directed by Nicholas Kotov, the Irving Langmuir Distinguished University Professor of Chemical Sciences and Engineering.
Researchers from the Kotov Lab have found that submicrometer twisted filaments made from materials like nanocarbon or metals can produce strong chiral infrared photons, especially in the wavelength range of 500 to 300 nanometers. The twisted filaments emit light that is significantly brighter, up to 100 times more bright than other similar light emitters. The special helical shape of the filaments helps in controlling the type of twisted light they emit. Additionally, coating these nanocarbons with durable, transparent ceramics results in bright and adjustable chiral emitters capable of functioning at temperatures that were previously thought to be unreachable. This advancement opens new possibilities in the field of chiral photonics and high-temperature applications.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Experimenting with different background colours, and shading on the lights.
I photographed this daffodil at the weekend, and now have brought it into the studio to shoot with very shallow depth of field at around f/1.4. Needed a neutral density filter on the lens, and shading on the flash heads to get the light level low enough to use f/1.4
experiment 2: slathered aussie, aloe & potion no. 9 experiment 3: slathered garnier fructis curl & shine cond., and soft curl cream
Es una de les fotos de la última sessió. Es un experiment molt interesant i amb moltes possibilitats