Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
complex metamaterial structures. At these frequencies, wave propagation is extremely sensitive to manufacturing imperfections, mode mismatches at interfaces, and energy losses due to reflections
-
structural stability and durability. 4. Design and Integration Develop innovative designs for floating breakwaters that integrate wave energy converters (WECs) and, tidal energy systems. Optimize design
-
alter near-bed hydrodynamics. This PhD aims to improve the understanding of scour processes around a pile under realistic wave-current conditions. The study will combine physical modeling in a wave
-
Job related to staff position within a Research Infrastructure? No Offer Description We are looking for an enthusiastic open-minded RF IC designer with EM background, ready to surf the wave of
-
Institut National des Sciences Appliquées de Lyon | Villeurbanne, Rhone Alpes | France | 12 days ago
, the programme aims to accelerate the transfer of ABH technologies towards real-world applications in sectors such as aerospace and energy. PhD project : Vibroacoustic control of fluid-filled pipes with add-on
-
manipulation, topological quests in magnetism, and applications for energy efficient computing? Join us as a PhD candidate to develop magnetic topology on demand! Information Topologically-protected conductors
-
pressure, as it is inversely proportional to the group velocity. However, this slowdown also increases attenuation, creating a trade-off between force amplification and energy dissipation. In acoustics
-
in deep collaboration with the Functional Materials Technology, Inverse Materials Design, Light-Matter Interaction Theory, Next Generation Energy systems, Oxide Single Crystal, and III-V Compound
-
address this issue. In both solids and fluids, ABHs rely on a common principle: a progressive reduction of wave velocity concentrates energy in space, enabling its efficient dissipation through intrinsic
-
on the extremely timely “TWISST: Terahertz wave induced spin switching technology” project. TWISST aims to develop the scientific understanding needed to create a new generation of magnetic memory-devices