![]() Connect from anywhere - With built in networking EVA3 can be managed from anywhere on your site with its optional cloud connectivity - from anywhere on the internet. See more than ever - Capture images under narrow band light that accentuates all the details your eyes would have missed otherwise. Preserve knowledge - With the optional camera documenting the entire grow cycle, you can always review the history of a grow cycle and see how small early signs can signal pests, nutritional deficiencies, and other potential problems. The crop at your fingertips - Optional full HD cameras on each lamp bring each of the finest plant details to your screen. Instant onboarding - EVA3 is pre-loaded with proven light spectra that will get you productive from day one. Optimize energy - Light up only productive spectra and save energy on lighting and air conditioning. Optimize light - Manipulate EVA3's light spectrum to deliver the precise intensities of every wavelength that the plant needs according to its genetics, growth stage, cultivation method, and yield goals. EVA3 is a horticulture grow light whose spectral curve can be dynamically manipulated in order to optimize the results of cultivation according to the crop's genetics, cultivation method and growth stage, as well as the grower's business goals. Our knowledge, innovation and technologies are now available in our most advanced grow light ever - EVA3. Through the manipulation of light we aim to reduce operating costs, increase yield and quality, and help cultivators make their products stand out in terms of aroma and medical effectiveness. All participants are encouraged to present their own research, either in poster form or as a short oral presentation, and the program will be finalized sufficiently prior to the start of the College.Our mission in Fotonica is to study the effect of light on cultivation and develop novel grow light technologies that improve the results of indoor farms. The LAMP (Laser, Atomic and Molecular Physics) program is intended for presentations by the participants. The Preparatory School will provide background tutorials and exercises designed to help the participants in following the College lectures. Photonics in biomedicine and renewable energyĪn ICTP PREPARATORY SCHOOL will be organized the week before the College (from 3 to 7 February 2014) for a limited number of selected participants.Wave guide platforms and optoelectronic circuits.Computational methods for photonic devices design and characterization.Fundamental of photonics, electromagnetic optics, waveguides theory.Finally, the fourth part concentrates in particular photonics devices, non-linear photonics and plasmonics and ending with applications of photonics in biomedicine and renewable energy. The third part of the course will be dedicated to technological applications of waveguide platform and optoelectronic circuits. ![]() The second part is dedicated to integrated optics theory, photonic circuits design, numerical simulations, special sources for integrated optics ending with special dedication to photonic materials, assembling and packing techniques. The first one presents foundations of electromagnetic optics, optical waveguides and photodetectors. The Winter College consists of four parts. The Abdus Salam International Centre for Theoretical Physics (ICTP), in collaboration with the International Commission for Optics (ICO), the Optical Society of America (OSA), the International Society for Optics and Photonics (SPIE), the European Optical Society (EOS), the Societa Italiana di Ottica e Fotonica (SIOF), the US National Academy of Sciences (NAS), and the International Society on Optics Within Life Sciences (OWLS) will organize a Winter College on Optics: fundamentals of Photonics - Theory, Devices and Applications, which will be held at ICTP, Trieste, Italy, from 10 to 21 February, 2014.
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