Are you holding Master’s degree and looking for fully funded PhD positions? University of Bergen, Norway invites online application for multiple funded PhD Programs / fully funded PhD positions in various research areas.
Candidates interested in fully funded PhD positions can check the details and may apply as soon as possible. Interested and eligible applicants may submit their online application for PhD programs via the University’s Online Application Portal.
1. Fully Funded PhD Position in Foreign Language Didactics
Summary of PhD Program:
The Department of Foreign Languages invites applications for a PhD position in foreign language didactics, commencing from the 1st of August 2024, or as agreed upon. The position is for a fixed-term period of four years. The Department of Foreign Languages spans nine different languages: Arabic, Chinese, English, French, German, Italian, Japanese, Russian and Spanish language and Latin-American Studies. Teaching and research are conducted in the disciplines of language/linguistics, literature, cultural studies and didactics. The Department has around 60 permanent academic staff members, along with approximately 20 PhD and postdoctoral fellows, and eleven administrative members of staff.
Application Deadline: 20th February 2024
2. Fully Funded PhD Position in Hydrogen Safety for Ships
Summary of PhD Program:
SH2IPS is an interdisciplinary project where the primary objective is to provide science-based recommendations for an international regulatory framework that can facilitate the safe development and deployment of merchant ships powered by hydrogen and hydrogen-based fuels. The activities in the SH2IPS project include the development of fundamental knowledge and competence on ignition and combustion phenomena in hydrogen-air mixtures to support the development of technical solutions for explosion protection in congested and confined environments. The project is conducted in collaboration with other national and international research projects and networks on hydrogen safety.
Application Deadline: 31st January 2024
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3. Fully Funded PhD Position in Marine Optics
Summary of PhD Program:
The PhD project will comprise one or more of the main activities of the optics group at the Department of Physics and Technology. The project is mainly planned to be about spectral matching of remote sensing reflectance from bio-optical radiative transfer models and remote sensing sensors. Further it will be investigated where these models fail and develop look-up tables based on in situ optical measurements. In addition, the project will include improvement of atmospheric corrections of remote sensing spectra for various coastal and fjord waters. It may also be possible to develop the project in another direction within the main activities of the optics group given that we find the right candidate.
Application Deadline: 31st January 2024
4. Fully Funded PhD Position in systems or computer science
Summary of PhD Program:
CC.AGE is formally starting in February 2024, aimed to support older adults to live safely and independently at home by exploring and developing relevant technology. This doctoral research fellow position is closely connected to an active research network with experience and expertise from complex health interventions in home-dwelling older adults, and people with complex conditions, including dementia and Parkinson’s disease. The project is expected to produce results of high clinical relevance that qualify for publications in international renowned peer-reviewed scientific journals. SEFAS facilitates scientific career building with a long-term perspective.
Application Deadline: 15th January 2024
5. Fully Funded PhD Position in environmental impacts (underwater noise) of floating offshore wind turbines
Summary of PhD Program:
As offshore wind energy continues to grow as a renewable energy source, it’s essential to understand and address any potential environmental impacts associated with its development. Wind turbines generate underwater noise across various stages of their lifetime, and more specifically during their operation phase. As the rotating mechanical components vibrate, noise can be both generated and transmitted into the water. This project contributes to enabling the green shift transition by offering valuable insights and knowledge to assess and mitigate the impacts of offshore wind farms.
