In addition to industrial CO2 emissions, agriculture also
Researchers at the Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena developed a way that defies the inhospitable conditions in space and does not affect the measurement result. They are working together with the German Aerospace Center (DLR) and the European Space Agency ESA. "We combine the optical elements with each other at the atomic scale, namely via oxygen bridges," explains Dr. Gerhard Kalkowski, scientist at the IOF. "In this way, we will provide the key for high-resolution systems made of prism-grating structures to also be able to be used in space in the future." The technology, which is already known in the field of silicon wafers, is called hydrophilic bonding. In this process, oxygen and hydrogen atoms are bonded to the wafer's surface. By pressing the surfaces together at elevated temperatures in a vacuum, rigid (covalent) oxygen bonds form between the two parts. The researchers have now successfully transferred this technology to transparent silica glass. The advantages: The oxygen bridges firmly connect the grating and prisms together, and the radiation in space cannot damage them. In addition, there is no intermediate layer, as in the case of adhesive, which would distort the measurements.
Read more at: https://phys.org/news/2016-06-greenhouse-gases-space.html#jCp
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