49 density-functional-theory-molecular-dynamics Postdoctoral positions in Switzerland
Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
University of Basel, Condensed Matter Theory and Quantum Computing Position ID: University of Basel -Condensed Matter Theory and Quantum Computing -POSTDOC [#21540] Position Title: Position Type
-
means of CMOS-based high density microelectrode arrays (HD-MEAs). The overall goal of this project is to combine advanced optical methods for light-stimulus shaping with high-spatiotemporal-resolution
-
The Department of Biomedicine at the University of Basel is home to over 70 different research groups and offers an internationally stimulating, dynamic and friendly atmosphere in an attractive
-
Your profile Candidates should have an exceptional academic record and a robust mathematical foundation. They should have published works at the main conferences in the field of machine learning, such as ICML, NeurIPS, ICLR, etc. Excellent communication skills and fluency in English (spoken and...
-
100%, Basel, fixed-term The Cell Systems Dynamics group studies cell fate choices and their molecular control in complex and dynamic mammalian cell systems. In the project advertised here, we
-
functional theory (DFT) outputs for representative quantum paraelectrics and use these force fields to perform lattice-dynamics simulations with explicit quantum mechanical treatment of the nuclei. Profile A
-
-material dissolution dynamics, keyhole formation, thermo-capillary flow, evaporation-induced recoil pressure, phase transitions (melting, vaporization, solidification), vapor plume formation dynamics, and
-
of health and disease. As a postdoctoral researcher, you will become part of a young team investigating cancer stem cells and the molecular mechanisms of their regulation, a promising and dynamic field
-
• Being part of a committed and motivated team with short information and decision paths • A state-of-the-art workplace in our new headquarters on the dynamic BaseLink site in Allschwil • Inspiring
-
. Utilizing a combination of experimental and computational approaches, we develop and characterize novel functional materials and devices driven by robust nanoscale quantum effects. We are currently seeking a