-
100%, Zurich, fixed-term This project aims at developing a parsimonious and accurate dynamic model of train motion, with values calibrated from real life measurement of different sensor types
-
and mass-producible contactor materials. The position is within the project ESCoDAC - Efficient Structured Contactors for Direct Air Capture. ESCoDAC intends to develop concepts for a novel mass
-
an ideal environment for the candidate to develop, succeed, and plan the next steps of their career. Finally, the University of Basel offers a competitive environment, including attractive salaries
-
functioning under climate extremes using a range of modelling techniques (both empirical/statistical or mechanistic) Assistance in teaching at Bachelor´s and Master´s levels (in English), depending on research
-
-driven experimental approaches and data-driven approaches to better understand the biological function of livestock animals and to develop strategies for improving the sustainability of livestock systems
-
methods) Strong command of R and/or Stata Didactic competence and enthusiasm for teaching Willingness to collaborate with colleagues, and to contribute to the academic activities and further development
-
animals and to develop strategies for improving the sustainability of livestock systems. We are looking for a motivated, team-oriented researcher who is eager to go beyond the state-of-the-art and work
-
Institute. ETH Zurich is one of the world’s leading universities specialising in science and technology. We are renowned for our excellent education, cutting-edge fundamental research and direct transfer
-
6,500 people supporting the three main missions of the institution: education, research and innovation. The EPFL campus offers an exceptional working environment at the heart of a community of more
-
to the difficulty in coupling matter-qubits and light. In this research project, we aim to develop, construct, and demonstrate a novel quantum interconnect that can link remote neutral-atom arrays, which have