Giuseppe CarleoGiuseppe Carleo is a computational quantum physicist, whose main focus is the development of advanced numerical algorithms tostudy challenging problems involving strongly interacting quantum systems.He is best known for the introduction of machine learning techniques to study both equilibrium and dynamical properties,based on a neural-network representations of quantum states, as well for the time-dependent variational Monte Carlo method.He earned a Ph.D. in Condensed Matter Theory from the International School for Advanced Studies (SISSA) in Italy in 2011.He held postdoctoral positions at the Institut d’Optique in France and ETH Zurich in Switzerland, where he alsoserved as a lecturer in computational quantum physics.In 2018, he joined the Flatiron Institute in New York City in 2018 at the Center for Computational Quantum Physics (CCQ), working as a Research Scientist and project leader, and also leading the development of the open-source project NetKet.Since September 2020 he is an assistant professor at EPFL, in Switzerland, leading the Computational Quantum Science Laboratory (CQSL).
Martin HaslerAfter a PhD and a postdoc in theoretical physics, Martin Hasler has pursued reasearch in electrical circuit and filter theory. His current interests are the applications of nonlinear dynamics in engineering and biology. In particular, he is interested in information processing in biological and technological networks. He is most well-known for his work in communications using chaos and in synchronization of networks of dynamical systems.
He joined EPFL in 1974, became a titular professor in 1984 and a full professor in 1998. In 2002, he was acting Dean of the School of Computer and Communication Sciences. He was elected Fellow of the IEEE in 1993. He was the general chair of ISCAS 2000 in Geneva. He was Associate Editor of the IEEE Transactions in Circuits and Systems from 1991 to 1993 and Editor-in-Chief from 1993 to 1995. He was elected vice-president for Technical Activities of the IEEE Circuits and Systems Society from 2002 to 2005. He is a member of the Research Council of the Swiss National Science Foundation.
Alfred RuferOriginaire de Diessbach (BE), Alfred Rufer est né en 1951. Il obtient en 1976 le diplôme d'ingénieur électricien de l'EPFL et poursuit son activité dans le même établissement en tant qu'assistant à la chaire d'électronique industrielle. En 1993, il est nommé professeur-assistant au Laboratoire d'électronique industrielle. Au début 1996, il est nommé professeur extraordinaire. En 1978, il débute son activité dans l'industrie de l'électronique de grande puissance à la société ABB, Asea Brown Boveri à Turgi, où il contribue au développement d'entraînements réglés à fréquence variable. Dès 1985, il exerce la fonction d'assistant technique et de chef de groupe. De 1988 à 1991, il poursuit le développement de nouveaux systèmes d'électronique de puissance dans différents domaines d'application. A. Rufer est l'auteur et co-auteur de plusieurs demandes de brevet, ainsi que de plusieurs publications. De 1991 à 1992, il est chef d'un département de développement d'appareils d'électronique de réglage et de commande pour l'électronique de puissance. Durant son activité professionnelle dans l'industrie, il participe activement à l'enseignement technique dans plusieurs écoles d'ingénieurs.
Mohammad RahiminejadMohammad Rahiminejad is a third-year Ph.D. student in the doctoral program of Mechanics at EPFL. His main research centers on building physics and examines how the thermo-hydrodynamic behavior of airflow in a ventilated cavity behind traditional and modern (BIPV) external claddings impacts the thermal performance of the entire building envelope. To tackle this topic, he takes a multidisciplinary approach that encompasses numerical analyses, CFD simulations, and experimental measurements. Before joining EPFL, he worked as a project manager assistant in Shiraz, Iran, on quite a few industrial projects including the design of the ventilation systems of Tehran-Shomal Freeway, design of the air conditioning systems of Shiraz subway, and design of the air exhaust and jet fan systems of the Shiraz longest underpass. He holds a master’s degree in Mechanical Engineering from the Sharif University of Technology, Iran, where he investigated water purification through monolayer graphene membranes using Molecular Dynamics (MD) simulation. In his bachelor's degree in Shiraz University, he successfully achieved publishing a journal paper in the field of biomechanics that addressed the distribution of the pressure and velocity fields in the human upper airway during sneezing using CFD simulations.
