Using Lasers to Cool Semiconductors
When lasers illuminate material it usually warms up. Therefore laser beams are, for example, used for cutting sheet steel, for welding or even as scalpels. But this effect can also be reversed. When the frequency of the laser beam makes the irradiated material just not absorbing its light and slightly more energy (of the photons, as physicists call the light particles) is needed for that, this photons "take" this missing energy from the oscillation energy of the material’s atoms. Such oscillation energy ("phonons") is equivalent to the vibration of atoms which is also called temperature and which is slightly reduced by this: the material is cooled down.
A team of scientists from Technische Universität Dortmund and Ruhr-Universität Bochum has just carried out the first detailed experimental study regarding this process (known as "photoluminescence up-conversion") in semiconductor nanostructures. Based on this, the development of a vibration-free cooling of semiconductors might be possible.