Philippe FlückigerSince 1999 Philippe Flückiger is the Director of Operations at the EPFL Center of MicroNanoTechnology, a world-class state-of-the-art cleanroom dedicated to research and development in the field of Micro and NanoFabrication. He received his diploma in physics from the University of Neuchâtel, Switzerland in 1987 and his PhD from the same University in 1993. His thesis work was dedicated to the deposition, patterning and characterization of high temperature superconductor epitaxial thin films. From 1993 to 1994 he was a post doc at Stanford University to develop submicron lithography with the atomic force microscope in the group of Calvin Quate, inventor of the AFM. From 1995 to 1997 he was successively process engineer, project manager and process engineering manager at Micronas SA in Bevaix, Switzerland, a microelectronics company producing baseband processors and voltage regulators for wireless applications, mostly ASICs for Nokia Mobile Phones. In 1997 he spent 4 months in the production line of EM Microelectronic Marin SA, Switzerland, a semiconductor manufacturer specialized in the design and production of ultra low power, low voltage integrated circuits for battery-operated and field-powered applications. He joined then the Swiss Federal Institute of Technology in Lausanne (EPFL) to start the new activity in diffusion, oxidation and CVD at the Center of MicroNanoTechnology. He was appointed Director of Operations of the Center in 1999.
Viacheslav SnigirevViacheslav Snigirev was born in 1996 in Moscow. As a holder of the 1st rank degree in Lomonosov Olympiad in Physics 2014 and of the golden medal for the academic achivements in high school, he was accepted to Lomonosov Moscow State University as a bachelor student of the Department of Physics in the same year. In 2018 he defended his bachelor thesis Ultrafast dynamics of light scattering in direct-bandgap semiconductor nanoparticles under supervision of Prof. Andrey A. Fedyanin and Dr. Alexander S. Shorokhov. He then continued to carry out research under their supervision in the area of active all-dielectric metaphotonics and joined the master program Quantum Electronics and Quantum Optics at the same university, finishing it in 2020 with the master thesis title Photo- and electrically induced modulation of optical response of Mie-resonant gallium arsenide nanoparticles and metasurfaces. The both degrees are degrees with honours containing only excellent grades. The scientific results obtained within the framework of his bachelor and master programs were presented on international conferences CLEO Europe and METANANO.
