17 soil-structure-interaction Postdoctoral positions at Chalmers University of Technology
Sort by
Refine Your Search
-
placed at the Division of Interaction Design and Software Engineering , with Chalmers University of Technology as the employer. Our division provides world-leading research and education in the development
-
Join us at the Hybrid Quantum Systems Laboratory to design and fabricate photonic structures that achieve strong and tunable atom–light coupling, contributing to emerging quantum technologies. As
-
structures that achieve strong and tunable atom–light coupling, contributing to emerging quantum technologies. As part of a well-equipped and interdisciplinary research environment, you will have the
-
, shaping them and characterizing their properties and structure determination on different length scales. To support the work, there is a large amount of advanced lab equipment and instruments as
-
-level structure and dynamics and the macroscopic properties of materials. Our research focuses on energy-related materials for next-generation batteries, with special emphasis on nanostructured electrodes
-
in the field with sampling of water and/or soil. Strong written and verbal communication skills in English. Demonstrate good potential for teaching, as 10% of this position is teaching. Meriting
-
that shape our understanding of the world, from abstract structures to concrete models of reality. Mathematics and statistics are essential across natural sciences, technology, social sciences, economics, and
-
. Research topics include: Development and validation of DORIS data processing and modeling Implementation of improved models for DORIS satellites and ground systems Cross-analysis of DORIS and other geodetic
-
supramolecular chemistry, organic synthesis, and/or host-guest chemistry is desirable. As the candidate will need to interact with an interdisciplinary team, they will also need excellent communication skills and
-
standards. About the research project The postdoctoral project will focus on precision tests of low-energy strong interactions via the ab initio modeling of open-shell, nuclear many-body systems and Bayesian