Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
from open water and polynyas drive snowfall and melt events; and running regional climate model simulations to project future Greenland surface mass balance under different sea ice scenarios. You will
-
for Nanoscience and Nanotechnology located on the Saclay plateau. The candidate will join the Photonics Department. The C2N is equipped with a large micro-nano-fabrication clean room and numerous photonics
-
across different imaging devices, including future sensors with unknown spectral sensitivities. Training The student will be based at the Colour & Imaging Lab at the School of Computing Sciences which has
-
ability to evaluate fossil fuel CO2 (ffCO2) emissions is currently limited. ‘Bottom-up’ emissions estimates, based on inventory-style accounting and mobile tracking data, can differ significantly from each
-
research center and two companies. The project has partners from eight different EU countries. All 15 Ph.d. projects are within the overall theme of neuromorphic computing and analog signal processing
-
on children and young people. She has developed theories to understand, for example, the effects of media on children's imaginations, and devised a model to explain what media preferences children of different
-
of Architecture and the Built Environment), where you will collaborate closely with a parallel PhD project within the Faculty of Aerospace Engineering focused on meshfree numerical methods. Together, you will work
-
. This project will combine numerical simulations, field observations, and stakeholder engagement to address three core research questions: 1. How does sediment transport reduce the efficiency and resilience
-
the candidate will work on different projects aimed at developing control frameworks for soft continuum surgical robots across various surgical applications, using techniques such as advanced sensing, AI-based
-
additional mechanical losses. Unlike conventional static devices, the vortex generators studied here adapt their shape and/or position naturally in response to flow conditions. This self-adaptative behavior