Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
develop and run the weather and climate model ICON. We are seeking a High Performance Computing (HPC) software engineer to further develop and optimize the ICON model (80-100%). Project background In order
-
The successful candidate will address gaps in our present understanding of paediatric system development and thus create an internationally competitive research program with an emphasis on clinical translation
-
and/or the University of Zurich. Wyss Zurich supports projects focusing on developing treatment protocols and clinical therapies, as well as novel technologies and intelligent systems in the emerging
-
, world-class research program in the field of sustainable engineering. We encourage applications from outstanding candidates with visible expertise in this broad field which ranges from sustainable
-
purposes, so an affinity to scientific software and data management is helpful. Ideally, you have experience with Stata and LaTeX. Applicants must be students in good standing at the University of Basel
-
. Commercial solutions avoid entanglement-based methods due to technical challenges, yet this limits the impact such technologies can have. In this project, we aim at further developing photonic integrated
-
that are threatened by climate change. The PhD candidate will be based in the Plant Ecology Group at ETH Zürich (Prof. Jake Alexander), and work collaboratively with the Ecology Group at University of Basel (Prof
-
understanding of paediatric system development and thus create an internationally competitive research program with an emphasis on clinical translation tailored to the specific needs of children and adolescents
-
, the European Organization for Nuclear Research, physicists and engineers are probing the fundamental structure of the universe. Using the world's largest and most complex scientific instruments, they study the
-
Portfolio Projects. We are an in-foundation startup, building upon a multi-year research and development program focused on a novel class of surgical materials. With a strong foundation in translational