UV-C tagged posts

Metal-poor Stars are more Life-friendly

A star’s chemical composition strongly influences the ultraviolet radiation it emits into space and thus the conditions for the emergence of life in its neighborhood.

Stars that contain comparatively large amounts of heavy elements provide less favourable conditions for the emergence of complex life than metal-poor stars, as scientists from the Max Planck Institutes for Solar System Research and for Chemistry as well as from the University of Göttingen have now found. The team showed how the metallicity of a star is connected to the ability of its planets to surround themselves with a protective ozone layer. Crucial to this is the intensity of the ultraviolet light that the star emits into space, in different wavelength ranges...

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Group blazes path to efficient, Eco-friendly Deep-Ultraviolet LED

Members of the Jena-Xing Research Group - Debdeep Jena, Moudud Islam, Huili (Grace) Xing, Vladimir Protasenko, Kevin Lee and Shyam Bharadwaj - are pictured in front of one of the molecular beam epitaxy systems used in their latest work. Credit: Image courtesy of Cornell University

Members of the Jena-Xing Research Group – Debdeep Jena, Moudud Islam, Huili (Grace) Xing, Vladimir Protasenko, Kevin Lee and Shyam Bharadwaj – are pictured in front of one of the molecular beam epitaxy systems used in their latest work. Credit: Image courtesy of Cornell University

The darkest form of UV light, ie UV-C, is unique because of its reputation as a killer – of harmful organisms. With wavelengths of between 200 and 280 nanometers, this particular form of UV light penetrates the membranes of viruses, bacteria, mold and dust mites, attacking their DNA and killing them...

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