Sort by
Refine Your Search
-
Listed
-
Country
-
Field
-
, focusing on AI- based quantitative imaging of human hemodynamics, as well as neural network models of nonlinear ultrasound for imaging and quantitative tissue property estimation. The outcome of
-
the UK, pursuing a diverse range of topics at the leading edge including high-speed optical transmission, optical sensing, signal processing, ultra-wide-band amplification, nonlinear photonics, fibre
-
infrared spectroscopic methods for molecular identification and sensing. Develop advanced experimental platforms, including ultrafast lasers, mid‑IR sources, nonlinear optical systems, and high‑precision
-
approaches. Expertise and research profiles are welcome in one or more areas of theoretical gravitational physics, with particular emphasis on exact and nonlinear general relativity, geometric and mathematical
-
heterogeneous media, metamaterials, and nonlinear structures. They will benefit from LAUM’s multidisciplinary environment and state-of-the-art facilities, developing expertise in acoustic metamaterials, wave
-
soft matter physics and the physics of non-equilibrium and nonlinear processes. Successful candidates should have several years of research experience after their doctoral degree, and are expected
-
, nuclear fission and fusion reactions within atomic nuclei, nonlinear responses and chemical reactions in diodes and transistors within solids, and element formation in space. The academic domain pursued by
-
tomography, computational resources, and laboratory facilities for experimental mechanics? The Division of Solid Mechanics conducts research within constitutive modelling, nonlinear numerical methods
-
driven, or high-precision computational approaches. Expertise and research profiles are welcome in one or more areas of theoretical gravitational physics, with particular emphasis on exact and nonlinear
-
, with particular emphasis on exact and nonlinear general relativity, geometric and mathematical analysis of the Einstein equations, analytical and numerical approaches to strong-field dynamics