If you are interested in starting a career in industry, the strategic location of JGU in one of the strongest industrial hubs in Germany with multiple technological, chemical, and pharmaceutical companies in the immediate surroundings, ensures you optimal networking and internship opportunities.
Studying physics to work in physics is nice – but how about studying one discipline and having opportunities in many fields? This attractive equation holds true for physics. An important aspect of studying physics is the wide range of possible careers. Physicists not only get positions in neighboring fields such as IT, chemistry, and biology. They qualify for jobs in professions and industries.
Some of the jobs physicists can get are not directly related to physics at first sight. Consequently, the unemployment rate of physicists is considerably lower than the general average rate of 6% (2017). In general, physics graduates benefit from the increasing need of German and international employers for more STEM experts. Especially the number of open positions in Research and Development offered by industrial employers has been increasing.
One would think that architects study arts and design in order to prepare for a successful career. Not so for the highly demanded architects of the contemporary era in which big data structures require architects of a special kind. In this area many physicists are currently working as business and technology architects. Especially the Rhine-Main area attracts young professionals to work in e.g. pharmaceutical companies, its strong finance and insurance sector or in software industry all around Germany.
Antonia Statt currently is a postdoctoral research associate at Princeton University at the Center for Complex Materials. She completed her PhD in Physics at JGU in 2015 with a dissertation on “Monte Carlo Simulations of Nucleation of Colloidal Crystals.” In May 2017, Stefan Axmann (34) was appointed as head of the newly founded Department for Forensic Physics at JGU. His papers bear curious titles involving baseball bats, stump impact on the skull, and bullet speed measurement. When thinking back of his early days as a first-generation university student of physics, nobody, especially not Axmann himself, would have expected such an unusual career path that would take him to Mainz.
The basis of our research is our excellent infrastructure. Starting with the availability of research facilities like advanced thin film deposition technology, clean rooms with nanofabrication and characterization, precision measurement technology, air-conditioned optical laboratories with precision tables and state-of-the-art lasers, climate chambers, helium liquefiers, ultra-low temperature cryostats, superconducting magnets, central detector and electronics labs, we also have access to our well-equipped workshops with technicians and engineers and operate major infrastructure facilities.