Sort by
Refine Your Search
-
(2023)). Work at these facilities will be combined with research in our state of the art femtosecond laser labs. Your profile Applicants should hold a PhD in Physics or Chemistry or related field
-
waveguides and high-Q resonators Implement heterogeneous integration of III-V gain with SiN platforms Fabricate and characterize nonlinear components and integrated lasers Optimize process flows
-
(2023)). Work at these facilities will be combined with research in our state of the art femtosecond laser labs. Your profile Applicants should hold a PhD in Physics or Chemistry or related field
-
(2023)). Work at these facilities will be combined with research in our state of the art femtosecond laser labs. Your profile Applicants should hold a PhD in Physics or Chemistry or related field
-
physically and functionally coupled across domains of life. The project will involve working with syntrophic deep-sea consortia, performing strictly anoxic physiological experiments, and developing electrode
-
physically and functionally coupled across domains of life. The project will involve working with syntrophic deep-sea consortia, performing strictly anoxic physiological experiments, and developing electrode
-
the physical understanding of the experiments performed in our lab and important guidelines for future work. Potential tasks will be to: model the electronic structure of quantum emitters in layered transition
-
aggregation in biomedically relevant settings, with implications for early diagnostics and, in the future, possible disease prevention. Researchers in our group benefit from state-of-the-art femtosecond laser
-
] that process information in temporal rather than spatial modes to reduce their footprint. The project involves a collaboration between DTU Electro (Senior Researcher Mikkel Heuck) and Harvard University (Dr