Marcel DrabbelsDr. Marcel Drabbels studied experimental physics at the University of Nijmegen (the Netherlands) and in 1993 obtained his Ph.D. at that same university. He then moved to the University of California at Santa Barbara where he studied the dynamics of highly vibrationally excited molecules and developed a new detection technique to investigate the photodissociation of molecules. When he returned to the Netherlands in 1996 he joined the FOM Institute for Atomic and Molecular Physics in Amsterdam where he worked on the development of new types of infrared imaging and streak cameras. In 1997 Dr. Drabbels was awarded a fellowship of the Royal Dutch Academy of Sciences and he moved to the Free University of Amsterdam where he studied the collision dynamics of molecules and initiated photodissociation experiments using ultrafast lasers. In October 1998 he was appointed as senior scientist at the EPFL where he studies the spectroscopy and dynamics of nanoscale systems. In March 2021 he was promoted to titular professor.
Franz-Karl ReinhartOriginaire d'Oberdorf (SO), Franz-Karl Reinhart est né à Bassersdorf (ZH) le 12 juillet 1933. Diplômé ingénieur électricien à l'Ecole polytechnique fédérale de Zurich en 1958, il obtient son doctorat ès sciences techniques à l'Institut d'électronique avancée de l'EPFZ en 1962.
En 1963, il est membre du "Technical Staff" du Laboratoire de recherche en électronique à l'état solide chez Bell, à Murray Hill (New Jersey) aux Etats-Unis. Il s'intéresse à l'optique des ondes guidées, particulièrement à la modulation électro-optique dans les guides d'onde à jonction p-n, aux lasers semiconducteurs à injection et à l'optique intégrée monolithique. Depuis mars 1983, il est professeur ordinaire d'optoélectronique à l'Institut de physique appliquée et, depuis octobre 1987, à l'Institut de micro- et optoélectronique de l'EPFL. Il enseigne dans les domaines de l'optique et de la physique du solide. Il a développé les bases d'un laboratoire d'optoélectronique et de supraconductivité à haute température de transition.
Il s'intéresse principalement à la physique des semiconducteurs, à la supraconductivité et aux applications industrielles. Son activité primaire consiste en la préparation et l'étude de nouveaux matériaux et dispositifs quantiques pour les applications en micro- et optoélectronique.
Manuel Alexandre PouchonResearcher in experimental and theoretical materials science, specializing in the development of nuclear fuels since 1997, and structural materials for nuclear reactors since 2004. Presently leading nuclear materials lab (LNM) and the advanced nuclear materials (ANM) group and programme at the Paul Scherrer Institute (PSI) in Switzerland. The applicability of different material candidates in advanced nuclear reactors is researched. Especially different aspects of radiation damage are investigated. For this purpose the concept of sample miniaturization is applied and further developed. Recently leading a new activity in particle fuel production and application. Previously working for the FUJI project at PSI, where different nuclear fuel forms for fast reactors were produced, characterized and finally irradiated in reactor. This work was performed in collaboration with the Japan Nuclear Cycle Development Institute (JNC) and Nuclear Research & consultancy Group (NRG) in the Netherlands. Previously an International Fellow at JNC investigating the thermal conductivity, sintering behaviour, and mechanical interaction of ceramic-sphere fuel beds; this includes the use of finite element methods for simulating various behaviours. Previously at the Paul Scherrer Institute (PSI) and for the Inert Matrix Fuel Project for burning plutonium in light water reactors, investigating the thermal conductivity and the diffusion and solubility of fission products of a zirconia-based non-fertile matrix.
Cécile HébertCécile Hébert was born in France in 1970. She obtained her Ingeneer degree (physics) and her PhD degree (design of a new energy filter for transmission electron microscopy, under the direction of Prof. B. Jouffrey) at the Ecole Centrale in Paris.
As a post doc with Prof. P. Schattschneider, she was working on the calculation of the fine structure of ionisation edges in EELS. As a research assistant at the Vienna University of Technology, she was one of the main participant to the CHIRALTEM project dealing with the measurement of magnetic circular dichroism in the electron microscope.
Duncan Thomas Lindsay AlexanderDuncan Alexander graduated with a PhD in Materials Science and Metallurgy at the University of Cambridge in 2003 for a thesis on the kinetics of metallurgical phase transformations under the direction of Lindsay Greer. From 2003 to 2007 he held a Royal Society Overseas Research Fellowship at the University of Sydney, and then post-doctoral positions at the University of Cambridge and Arizona State University, working first on materials electrochemistry with Carsten Schwandt and Derek Fray, and then the characterization of atmospheric aerosol particles with Peter Crozier and Jim Anderson. In 2007 he came to EPFL as a scientific collaborator in the group of László Forró, and from 2008 to 2017 he was a staff scientist at EPFL’s Interdisciplinary Centre for Electron Microscopy (CIME), specializing in the application of advanced transmission electron microscopy techniques and enabling electron microscopy research activities for groups across EPFL through teaching, training and support. In 2018 he joined the Electron Spectrometry and Microscopy Laboratory (LSME) as a full-time research scientist dedicated to advancing transmission electron microscopy techniques, and was promoted to the status of Research and Teaching Associate. In 2019, together with LSME director Cécile Hébert, he launched the first MOOC on transmission electron microscopy for materials science: https://www.coursera.org/learn/microscopy/For a complete list of peer-reviewed publications, see:https://orcid.org/0000-0003-4350-8587 