Search results
The six-semester Bachelor offers you a comprehensive physics education while at the same time fostering early specialization and research experience. Key Facts: 6 semesters, 180 ECTS, early research experience, fast-track PhD option, no tuition. Learn more.
- Why JGU
PRISMA: The MESA particle accelerator; Center for Innovative...
- Degree programs
Jumpstart your career. at JGU. Degree Programs. Explore the...
- Research
Mainz offers the ideal infrastructure for studying physics....
- Versatile student life
Versatile student life - Physical Sciences in Mainz,...
- Bachelor Degree
Bachelor Degree - Physical Sciences in Mainz, Germany:...
- Master degree
Master degree - Physical Sciences in Mainz, Germany:...
- PhD Program
PhD Program. Whether you want to start a career in science...
- While Studying
While Studying - Physical Sciences in Mainz, Germany:...
- Disclaimer
Disclaimer - Physical Sciences in Mainz, Germany: Bachelor,...
- Why JGU
Apr 5, 2024 · In Mainz, our programs in Physics include the following subject areas that many of our research groups contribute to: Quantum and atomic physics. Hadron and nuclear physics. Particle and astroparticle physics. Condensed matter physics.
People also ask
Does Johannes Gutenberg University Mainz offer a PhD program?
Is Johannes Gutenberg University a good physics school?
What is the MSc in physics at JGU?
What is Mainz known for?
Master of Science Physics. The MSc at JGU is a two-year international graduate degree, completely taught in English. The first two semesters focus on deepening your knowledge of theoretical and experimental physics gained in the BSc.
Jan 25, 2023 · Research in phenomenological particle physics centers on collider physics, flavor physics, perturbative quantum field theory at higher orders, and effective field theories for heavy and light quarks. On a more theoretical side, our research covers the mathematical structures of scattering amplitudes, algebraic Yang-Mills-Higgs theories and ...
It consists of five research areas: A: Exploring the intensity frontier at MESA. B: Precision physics at the low-energy frontier. C: Exploring the weakly interacting universe. D: Physics at high-energy accelerators. E: Theory and phenomenology of fundamental interactions. They are supplemented by three key structural initiatives:
