Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
Scholars including prompt response to inquiries and requests about the UF MD-PhD Program, preparing and sending electronically or by mail all explanatory materials (brochures, program descriptions, etc.). In
-
will be held in collaboration with RWTH Aachen, Germany. The position is offered in relation to the research group "Reliability of Power Electronic Converters" and the PhD Student will be positioned
-
the PhD Student will be positioned to the section for “Applied Power Electronic Systems”. Your work tasks Asynchronous grids (a-grids) decouple synchronous power systems into multiple compartments with
-
frequencies in populations, regardless of their adaptive content. The PhD student will develop a theoretical framework in which multiple inversions, each with its own explicit genetic content, interact within
-
) Positions PhD Positions Application Deadline 1 May 2026 - 23:59 (Europe/Oslo) Country Norway Type of Contract Temporary Job Status Full-time Is the job funded through the EU Research Framework Programme? Not
-
SD-25045 – PHD IN HONG-OU-MANDEL INTERFERENCE AND ENTANGLEMENT WITH COLOUR CENTRES IN SILICON CAR...
towards a quantum internet architecture. The objective of this PhD thesis is to support our work towards optical interference between colour centres, i.e., Hong-Ou-Mandel interference. The initial part of
-
Strong motivation to work within this field and to complete a PhD as well as conduct the practical tasks in the project Ability to work independently and systematically as well as be a good team worker
-
the power Sector to ensure the reliability and safety of high-temperature industrial materials and components. How to apply Application deadline: 31-May-2026 To apply, please email your CV and supporting
-
efficient power electronics, clean energy generation and conversion, radically more powerful processors for artificial intelligence, electrification of transport and the explosion in space technology
-
tasks of the PhD position are to: Improve our understanding of the exposure, uptake and excretion of multiple stressors (radionuclides, metals and organic compounds) in aquatic organisms