Faculty of Science
The
University of Amsterdam is the Netherlands' largest university, offering the widest range of academic programmes. At the UvA, 30,000 students, 6,000 staff members and 3,000 PhD candidates study and work in a diverse range of fields, connected by a culture of curiosity.
The
Faculty of Science has a student body of around 8,000, as well as 1,800 members of staff working in education, research or support services. Researchers and students at the Faculty of Science are fascinated by every aspect of how the world works, be it elementary particles, the birth of the universe or the functioning of the brain.
The mission of the
Institute of Physics (IoP) is to carry out excellent research in the field of experimental and theoretical physics, to provide inspiring teaching within the physics and other curricula and to transfer our knowledge of and enthusiasm for physics to society. The IoP has over 50 faculty and 180 researchers in total. The combination with the NWO Institutes at Amsterdam Science Park constitutes the largest physics hub in the Netherlands and is an international centre of excellence.
The Advanced Research Centre for Nanolithography (ARCNL) focuses on the fundamental physics and chemistry involved in current and future key technologies in nanolithography, primarily for the semiconductor industry. ARCNL is a public-private partnership between the Dutch Research Council (NWO), the University of Amsterdam (UvA), the VU University Amsterdam (VU) and the semiconductor equipment manufacturer ASML. ARCNL is located at the Science Park Amsterdam, The Netherlands, and is a thriving research community of approximately 100 scientists and support staff. See also
www.arcnl.nl.
In the
Light-Matter interaction group we study the interaction of light with matter within the context of current, and potential future optical metrology applications, such as laser-induced ultrasonics.
In the
Materials & Surface Science for EUV lithography group we study the evolution of surfaces exposed to challenging conditions relevant to nanolithography, including the interaction with gases, radicals, ions, and light. The key method for this research is in situ photoelectron spectroscopy, which allows conclusions on the composition and chemical state of the surface.
Want to know more about our organisation? Read more about
working at the University of Amsterdam.