86 postdoctoral-biomedical-signal-processing scholarships at Chalmers University of Technology

PhD student position in modeling a superconducting quantum computer

, Chalmers is leading the 1.5-billion-SEK, 12-year Wallenberg Centre for Quantum Technology (WACQT) , where the core project is to build a superconducting quantum computer. You will contribute to this project

PhD in Radio Astronomy Instrumentation: Superconducting Electronics

for efficient operation across terahertz frequencies, addressing complexities in developing advanced broadband terahertz waveguides and layouts, and overcoming challenges related to signal attenuation

PhD in Radio Astronomy Instrumentation: Superconducting Electronics

technologies. The focus is on integrating broadband capabilities within the receiver design for efficient operation across terahertz frequencies, addressing complexities in developing advanced broadband

PhD student position in geometric deep learning

. Application deadline: 2024-06-11 For questions, please contact: Professor, Fredrik Kahl, Computer Vision Group, [email protected] Professor, Lennart Svensson, Signal Processing Group, lennart.svensson

PhD student position in geometric deep learning

Kahl, Computer Vision Group, [email protected] Professor, Lennart Svensson, Signal Processing Group, [email protected] *** Chalmers declines to consider all offers of further

PhD student position in Airborne multi-static radar systems

McKelvey, division of Signal processing and Biomedical engineering, [email protected], 031-7728061 *** Chalmers declines to consider all offers of further announcement publishing or other types

PhD student position in neutron scattering studies of..

materials, especially two-dimensional (2D) variants, show broadband (almost white) luminescence, which is very attractive for applications in LEDs. Recent studies indicate that the white light emission is (in

PhD student position: Liquid Crystals

on ferroelectric nematic liquid crystals, with the aim to further increase the knowledge about the mechanisms behind their formation and their phase behavior. From an applicational point of view, the understanding

PhD student position: Liquid Crystals

behind their formation and their phase behavior. From an applicational point of view, the understanding of the interplay between NF materials and bounding surfaces, is of special importance. Depending

PhD student position in neutron scattering studies of 2D hybrid organic-inorganic perovskites for energy applications.

materials, especially two-dimensional (2D) variants, show broadband (almost white) luminescence, which is very attractive for applications in LEDs. Recent studies indicate that the white light emission is (in