Caroline Berlage, a student at PicoQuant, wins Physik-Studienpreis by the Physikalische Gesellschaft zu Berlin

The prize was awarded for her outstanding master’s degree in Physics

Caroline Berlage (center), former student at PicoQuant, receiving the Physik-Studienpreis 2019 of the Physikalische Gesellschaft zu Berlin (PGzB) from Adrian Grasse (left), Siemens AG, and Prof. Dr. Martin Wolf, chairman of the PGzB. Photograph courtesy of the PGzB ( (PresseBox) ( Berlin, )
Caroline Berlage, a former student at PicoQuant, is one of this year’s winners of the prestigious Physik-Studienpreis awarded by the Physikalische Gesellschaft zu Berlin. Caroline studied Physics at the Humboldt-Universität zu Berlin and carried out the experimental work for her master's thesis from 2016 to 2019 at PicoQuant as well as the laboratory of Prof. Oliver Benson. PicoQuant supported Caroline during her master studies with a “Deutschlandstipendium” scholarship. Upon hearing of the jury’s decision, Caroline said: “I’m very happy to receive this honor and I’m grateful to PicoQuant for their ongoing support during my studies. Working at PicoQuant for my master’s thesis gave me the opportunity to gain insights not only into scientific research but also to learn about industrial R&D.” The prizes were awarded on July 11, 2019 during an open ceremony at the Magnus-Haus in Berlin.

PicoQuant is a company with an emphasis on research and development whose founders all had the chance to get an outstanding education at the Humboldt-Universität zu Berlin. “We feel very strongly that we should give something back”, says Rainer Erdmann, the company’s Managing Director, “We would like to inspire young people, especially women, to pursue scientific careers. We see the “Deutschlandstipendium” as an excellent program to do so. It provides not only financial support but also enables a close collaboration between academia and industry.”

In her master's thesis, entitled “Counting Molecules by Photon Statistics”, Caroline used a promising new technique to count molecules based on the photon antibunching effect. A central aspect of her work was to systematically investigate this method for imaging artificial as well as biological samples under a wide range of experimental conditions.
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