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theoretically) Relationship to the aim and goals of the PAWP Section Planned national and international collaborations Potential to obtain external funding Copy of certificates/diplomas (Master and PhD degree
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quantum networks, where one bit of information is encoded in the quantum state of a single photon. You will be part of a team of 10-12 people between senior staff, PostDocs and PhD/Master students
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impact. The Department of Electronic Systems employs more than 200 people, of which about 90 are PhD students, and about 40 % of all employees are internationals. In total, it has more than 600 students in
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by the Danish EUDP project “RePower-HPC.” Future AI and high-performance computing (HPC) systems demand unprecedented power levels driven by massive data processing. A key challenge is enabling
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industrial partners to tackle the most urgent engineering challenges, as well as with researchers in neuroscience. Responsibilities and qualifications Your main responsibilities revolve around the development
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essential. Familiarity with paleoclimate data or experience adapting models to data-limited contexts would be a significant advantage The PhD must be obtained within the last 8 years The successful candidate
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. Enquiries about the project and the position can be addressed to the Principal Investigator, Kim Andersen, kand@journalism.sdu.dk . For further information about the Centre for Journalism and the Department
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Postdoctoral Researcher in Natural Language Processing and Digital Humanities (18 months, full-time)
workshops. Qualifications Applicants must hold a PhD degree (or equivalent) in a relevant field. Suitable disciplinary backgrounds include but are not limited to: Computer Science, Data Science, Artificial
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Systems employs more than 200 people, of which about 90 are PhD students, and about 40 % of all employees are internationals. In total, it has more than 600 students in its BSc and MSc programs, which
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be tested along an electrolysis system. Within this consortium, the main role of DTU will be on researching how to design an ideal TEG for the heat exchanger system, collaborating closely with