Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
-
Field
-
If you want to shape the future of optical imaging in healthcare—advancing diagnostics, monitoring, and image-guided interventions from lab to clinic—this is your next step. At DTU Health Tech’s
-
Job Description If you want to shape the future of optical imaging in healthcare—advancing diagnostics, monitoring, and image‑guided interventions from lab to clinic—this is your next step. At DTU
-
and challenging experiments inspire you? This PhD project is part of a research project that will develop and implement a focusing neutron optics prototype. Neutrons are inherently excellent probes
-
the Core facility for Integrated Microscopy (CFIM). CFIB currently offers open access services on a broad range of bioimaging technologies; including preclinical in vivo NMR imaging, multiphoton intra
-
at cryogenic temperatures. Perform spectroscopy and optical imaging of quantum emitters. Perform advanced coherent excitation of individual emitters with picosecond laser pulses. Perform quantum-optical
-
Postdoctoral position in the development of an AI-based phenotyping system for high-throughput sc...
work. Qualifications PhD in computer science, computational biology, engineering, or related fields. Experience developing deep-learning tools for image processing, automatic monitoring of agricultural
-
work. Qualifications PhD in computer science, computational biology, engineering, or related fields. Experience developing deep-learning tools for image processing, automatic monitoring of agricultural
-
. You can read about the recruitment process at https://employment.ku.dk/faculty/recruitment-process/ .
-
recycling of components, enabling a more circular life cycle. The work will contribute to a new paradigm in the development of power electronics that incorporate disassembly, reuse, and remanufacturing
-
-intensive challenges that require coordinated advances from both data-science and electronics research. Wind turbines, especially prototype units—generate massive volumes of heterogeneous, high-frequency