Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Employer
- CNRS
- AALTO UNIVERSITY
- Ariel University
- ETH Zürich
- Technical University of Denmark
- ; Loughborough University
- Chalmers University of Techonology
- DAAD
- European Magnetism Association EMA
- European Synchrotron Radiation Facility
- Fraunhofer-Gesellschaft
- Fureho AB
- Imperial College London;
- Leiden University
- Loughborough University
- Queensland University of Technology
- Technische Universität München
- The University of Manchester
- University of Cambridge
- University of Ljubljana, Faculty of Mechanical Engineering
- University of Sussex;
- Universität Düsseldorf
- 12 more »
- « less
-
Field
-
lacks good surface finishing quality. This project will investigate the science behind titanium chemistry and surface finishing for the control of porosity in engineered lattice components
-
by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description PhD Position in Frequency Lattices and RF-Controlled Comb Dynamics Our group investigates
-
the DC will use pore-scale direct numerical simulations (based on the lattice-Boltzmann method) to enable the precise quantification of mass transport within electrode microstructures, reconstructed via X
-
Project details: Surface features are important in additively manufactured parts. While additive manufacturing technology has made great strides in the realisation of complex shapes, topologies and tailored metallurgy-chemistry of porous structures, it still lacks surface finishing quality. This...
-
This project aims to establish, for the first time, a direct correlation between magnetotransport properties and the underlying magnetic microstate in 3D artificial spin-ice (ASI) lattices. Using
-
, storm activity, and other hazards using graph-based clustering, fuzzy machine learning, and reduced-order models – delivering scientific insight into where and when rerouting is needed. Real-Time Decision
-
design and implementation on quantum simulators and real quantum computers, with a particular focus on extracting utility from the noisy, imperfect devices that are available for the near-term. The Lattice
-
deposited the FnHm monolayers on a solid substrate and recover these results (crystal lattice of nanodomains and absence of coalescence) by atomic force microscopy (AFM) In order to progress in
-
to quantify the phase fractions and lattice parameter evolution, which in turn will allow quantification of the phase transformations taking place. This approach has advantages over other methods as it utilises
-
, to fabricate computed active materials and smart structures. These advanced AM techniques offer valuable and diverse material deposition capabilities for creating 2D-to-3D shapes and shapeshifting lattice