Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
. Nature Physics20, 970 (2024)). You will also work on expanding our coherent imaging methodology to look at dynamics and phase switching in materials at the nanoscale (Johnson et al. Nature Physics19, 215
-
responsibility for driving scientific coherence and ensuring robust project execution across the consortium. The starting date is May 1st 2026. Job description The successful candidate will play a central
-
niobate for coherent communications . ACS Photonics 11, 3860–3869 (2024). [Powell2024] Powell, K., Li, X., Assumpcao, D., Magalhães, L., Sinclair, N. & Lončar, M. DC-stable electro-optic modulators using
-
-ray diffraction, and X-ray photoelectron spectroscopy would also helpful for this position. Basic programming skills (in Python) is another skill desired for this position. We offer DTU is a leading
-
The Department of Ecoscience at Aarhus University invites applications for two postdoctoral positions to strengthen our research on image recognition, computer vision and deep learning applied
-
imaging environment, investigating the transport and adsorption of emerging contaminants under groundwater-relevant conditions. Responsibilities As a key member of our team, you will contribute to a Novo
-
degree in remote sensing, geoinformatics, computer vision, AI or related fields. Candidates with a solid understanding of satellite images, spatial analyses, machine learning and deep learning. Candidates
-
segmentation of organs from medical images; generation of simulation-ready surface and volumetric meshes from segmentations; and modelling realistic boundary conditions, particularly the interaction between
-
diffraction and fluorescence techniques in the investigation of structure–reactivity relationships. Performing and analyzing electrocatalysis experiments using gaseous reagents and/or products. Analytical
-
to perform spectroscopy of the quantum coherence properties of promising quantum emitters in hBN and molecular systems. Our group belongs to the Quantum and Nanophotonics Section of the Department