Here are entered works on the photography of objects at a distance. Works on the transmission of pictures by telegraph or telephone wires, or by wireless telegraphy are entered under Phototelegraphy
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Photothérapie. : Photobiology / Elli Kohen, René Santus, Joseph G. Hirschberg
Brain -- Phototherapy : Photobiomodulation in the Brain : Low-Level Laser (Light) Therapy in Neurology and Neuroscience / edited by Michael R. Hamblin and Ying-Ying Huang
Treatment using irradiation with light of low power intensity so that the effects are a response to the light and not due to heat. A variety of light sources, especially low-power lasers are used
Phototherapy -- standards. : Phototherapy treatment protocols : for psoriasis and other phototherapy responsive dermatoses / the methods of Michael D. Zanolli and Steven R. Feldman
2005
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Phototherapy -- trends. : Lasers in ophthalmology : basic, diagnostic, and surgical aspects : a review / edited by Franz Fankhauser and Sylwia Kwasniewska
Processes by which phototrophic organisms use sunlight as their primary energy source. Contrasts with chemotrophic processes which do not depend on light and function in deriving energy from exogenous chemical sources. Photoautotrophy (or photolithotrophy) is the ability to use sunlight as energy to fix inorganic nutrients to be used for other organic requirements. Photoautotrophs include all GREEN PLANTS; GREEN ALGAE; CYANOBACTERIA; and green and PURPLE SULFUR BACTERIA. Photoheterotrophs or photoorganotrophs require a supply of organic nutrients for their organic requirements but use sunlight as their primary energy source; examples include certain PURPLE NONSULFUR BACTERIA. Depending on environmental conditions some organisms can switch between different nutritional modes (AUTOTROPHY; HETEROTROPHY; chemotrophy; or phototrophy) to utilize different sources to meet their nutrients and energy requirements
Processes by which phototrophic organisms use sunlight as their primary energy source. Contrasts with chemotrophic processes which do not depend on light and function in deriving energy from exogenous chemical sources. Photoautotrophy (or photolithotrophy) is the ability to use sunlight as energy to fix inorganic nutrients to be used for other organic requirements. Photoautotrophs include all GREEN PLANTS; GREEN ALGAE; CYANOBACTERIA; and green and PURPLE SULFUR BACTERIA. Photoheterotrophs or photoorganotrophs require a supply of organic nutrients for their organic requirements but use sunlight as their primary energy source; examples include certain PURPLE NONSULFUR BACTERIA. Depending on environmental conditions some organisms can switch between different nutritional modes (AUTOTROPHY; HETEROTROPHY; chemotrophy; or phototrophy) to utilize different sources to meet their nutrients and energy requirements
The processes and properties of living organisms by which they take in and balance the use of nutritive materials for energy, heat production, or building material for the growth, maintenance, or repair of tissues and the nutritive properties of FOOD
Processes by which phototrophic organisms use sunlight as their primary energy source. Contrasts with chemotrophic processes which do not depend on light and function in deriving energy from exogenous chemical sources. Photoautotrophy (or photolithotrophy) is the ability to use sunlight as energy to fix inorganic nutrients to be used for other organic requirements. Photoautotrophs include all GREEN PLANTS; GREEN ALGAE; CYANOBACTERIA; and green and PURPLE SULFUR BACTERIA. Photoheterotrophs or photoorganotrophs require a supply of organic nutrients for their organic requirements but use sunlight as their primary energy source; examples include certain PURPLE NONSULFUR BACTERIA. Depending on environmental conditions some organisms can switch between different nutritional modes (AUTOTROPHY; HETEROTROPHY; chemotrophy; or phototrophy) to utilize different sources to meet their nutrients and energy requirements
Phototropism in plants -- Congresses. : Selection mechanisms controlling biomass distribution : IAWQ-SIL Conference on Selection Mechanisms Controlling Biomass Distribution, held in Noordwijkerhout, the Netherlands, 11-15 December 1994 / editors, L.R. Mur, P.M. Visser and H. Reith
The directional growth of organisms in response to light. In plants, aerial shoots usually grow towards light. The phototropic response is thought to be controlled by auxin (= AUXINS), a plant growth substance. (From Concise Dictionary of Biology, 1990)
Photovoltaic cells -- Materials -- Congresses : New materials II : thermal-to-electrical energy conversion, photovoltaic solar energy conversion and concentrating solar technologies : proceedings of the 5th Forum on New Materials, part of CIMTEC 2010-12th International Ceramics Congress and 5th Forum on New Materials, Montecatini Terme, Italy, June 13-18, 2010 / edited by Pietro Vincenzini, World Academy of Ceramics and National Research Council, Italy ; co-edited by Kunihito Koumoto, Nagoya University, Japan, Nicola Romeo, University of Parma, Italy, Mark Mehos, NREL, USA
