43 optimization-nonlinear-functions Postdoctoral positions at Chalmers University of Technology
Sort by
Refine Your Search
-
at the forefront of translating computational research into real-world protective devices that can make a meaningful impact on public health. Project overview This position is part of an interdisciplinary research
-
We are looking for a Postdoc to become part of our team at the Division of Subatomic, High-Energy and Plasma Physics at the Department of Physics. Join our innovative team and contribute to exciting
-
-14158 Is the Job related to staff position within a Research Infrastructure? No Offer Description We are looking for a Postdoc to become part of our team at the Division of Subatomic, High-Energy and
-
We invite applications for several postdoctoral research positions in experimental quantum computing with superconducting circuits. You will work in the stimulating research environment
-
outreach. We provide a competitive advantage by linking our top-level international and interdisciplinary academic performance in the areas of material science, nanotechnology and energy research with world
-
tomography, the project aims to push the limits of characterization at the atomic scale. A key aspect of the work involves developing innovative approaches for handling and analyzing air-sensitive samples
-
solutions to major environmental challenges such as climate change , energy transitions, and sustainable land use. Our challenge-driven research is interdisciplinary building on both technical and social
-
limits of characterization at the atomic scale. A key aspect of the work involves developing innovative approaches for handling and analyzing air-sensitive samples. The research is highly relevant
-
functions, using digital twins and advanced validation techniques. You will work closely with leading Swedish industry partners in 6G and cloud computing, gaining unique opportunities to bridge academic
-
spins could revolutionize information processing and storage technologies. Towards this purpose, we aim to explore low-dimensional magnetoelectric and altermagnetic materials based on halides