![Milan Radovic ist wissenschaftlicher Mitarbeiter an der SIS-Beamline (Spectroscopy of Interfaces and Surfaces) der Synchrotron Lichtquelle Schweiz SLS. Er hat in Serbien an der Universität Belgrad studiert, wo er auch seine Forschungslaufbahn in der Abteilung für Atomphysik begonnen hat. Promoviert hat er an der Universität in Neapel. 2009 wurde Radovic eingeladen, eine gemeinsame Stelle an der EPFL Lausanne und am PSI anzutreten. Seit 2013 ist er wissenschaftlicher Mitarbeiter am PSI. (Foto: Paul Scherrer Institut/Mahir Dzambegovic) / Milan Radovic is a staff scientist at the Spectroscopy of Interfaces and Surfaces (SIS) Beam Line, Swiss Light Source. He studied Applied Physics at the University of Belgrade, Serbia, where he also started his research career at the Department of Atomic Physics. In 2009 he obtained his PhD from the University of Naples, Italy. In 2003 he was invited to take up a dual appointment with EPFL Lausanne and PSI, where he has been a staff scientist since 2013. (Photo: Paul Scherrer Institute/Mahir Dzambegovic) Milan Radovic ist wissenschaftlicher Mitarbeiter an der SIS-Beamline (Spectroscopy of Interfaces and Surfaces) der Synchrotron Lichtquelle Schweiz SLS. Er hat in Serbien an der Universität Belgrad studiert, wo er auch seine Forschungslaufbahn in der Abteilung für Atomphysik begonnen hat. Promoviert hat er an der Universität in Neapel. 2009 wurde Radovic eingeladen, eine gemeinsame Stelle an der EPFL Lausanne und am PSI anzutreten. Seit 2013 ist er wissenschaftlicher Mitarbeiter am PSI. (Foto: Paul Scherrer Institut/Mahir Dzambegovic) / Milan Radovic is a staff scientist at the Spectroscopy of Interfaces and Surfaces (SIS) Beam Line, Swiss Light Source. He studied Applied Physics at the University of Belgrade, Serbia, where he also started his research career at the Department of Atomic Physics. In 2009 he obtained his PhD from the University of Naples, Italy. In 2003 he was invited to take up a dual appointment with EPFL Lausanne and PSI, where he has been a staff scientist since 2013. (Photo: Paul Scherrer Institute/Mahir Dzambegovic)](/uploads/images/_scale/20221026_radovicboniniguedes_0020_169_626x352.jpg)
![Milan Radovic und Eduardo Bonini Guedes (rechts) von der Forschungsgruppe Spektroskopie von Quantenmaterialien an der Strahllinie SIS der Synchrotron Lichtquelle Schweiz SLS. (Foto: Paul Scherrer Institut/Mahir Dzambegovic) / Milan Radovic and Eduardo Bonini Guedes from the Spectroscopy of Quantum Materials Group at the SIS beamline of the Swiss Light Source. (Photo: Paul Scherrer Institute/Mahir Dzambegovic) Milan Radovic und Eduardo Bonini Guedes (rechts) von der Forschungsgruppe Spektroskopie von Quantenmaterialien an der Strahllinie SIS der Synchrotron Lichtquelle Schweiz SLS. (Foto: Paul Scherrer Institut/Mahir Dzambegovic) / Milan Radovic and Eduardo Bonini Guedes from the Spectroscopy of Quantum Materials Group at the SIS beamline of the Swiss Light Source. (Photo: Paul Scherrer Institute/Mahir Dzambegovic)](/uploads/images/_scale/20221026_radovicboniniguedes_0003_626x417.jpg)
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- Science
New materials for the computer of the future
Novel materials could revolutionise computer technology. Research conducted by scientists at the Paul Scherrer Institute PSI using the Swiss Light Source SLS has reached an important milestone along this path.
Microchips are made from silicon and work on the physical principle of a semiconductor. Not…