Our key team members are accomplished scientists, engineers and educational leaders united by a passion to make a difference in the world of science.
Geographical location: Berlin, Germany
Aim: Development of new photonic materials to improve the efficiency of solar panels.
Results: Synthesis of a new class of photoactive materials to increase the efficiency of solar panels by 30%.
Geographical location: Geneva, Switzerland
Aim: Development of new quantum teleportation methods for information transfer.
Results: Successful demonstration of teleportation of quantum states over 100 km. Solar Wind Initiative
Geographical location: Pasadena, California, USA
Purpose: To study the behaviour of the solar wind and its effects on the Earth's atmosphere.
Results: Development of new types of satellite sensors to improve space weather forecasts. Plasma Core Programme
Geographical location: Tokyo, Japan
Goal: To create sustainable conditions for controlled fusion.
Results: Progress towards reaching above the critical plasma density to initiate a thermonuclear reaction in laboratory conditions. Future Photonics Project
The Tamm Foundation actively collaborates with leading universities and research institutes around the world to advance science and education. Our partnerships include joint programmes that offer internships and research projects for undergraduate and postgraduate students.
The programme offers students and young researchers hands-on experience and lectures from leading scientists in the field of plasma physics.
Participants can work on cutting-edge projects in quantum mechanics and plasma physics under the supervision of experienced researchers.
Projects to develop new energy technologies involving students and professors from partner institutions.
The Tamm Foundation offers a range of interactive learning modules and virtual laboratories that provide a deeper understanding of physical processes and real-time virtual experiments.
Explore the properties of plasma and its energy applications through a series of interactive experiments and simulations.
Offers animated lessons and interactive problems to help you understand complex quantum phenomena.
Users can control fusion reaction conditions by simulating various scenarios and learning key aspects of controlled fusion.