The quantum physics of artificial light harvesting

Plants and bacteria make use of sunlight with remarkably high efficiency: nine out of ten absorbed light particles are being put to use in an ordinary bacterium. For years it has been a pressing question of modern research whether or not effects from quantum physics are responsible for this outstanding performance of natural light harvesters. A team of European research groups, a collaboration between Universities in Vienna, Ulm, Cartagena, Prague, Berlin and Lund, have examined these quantum effects in an artificial model system. It was shown that the hotly debated quantum phenomena can be understood as a delicate interplay between vibrations and electrons of the involved molecules. The resulting theoretical model explains the experiments perfectly. The article was published in Nature. The studied artificial light harvester is a supramolecule, consisting of hundreds of thousands of light absorbing molecules, arranged in close proximity to one another and in an orderly fashion.