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, artificial gauge fields , Artificial Intelligence , Astronomy , Astronomy and Astrophysics , Astroparticle Physics , astrophysics , Astrophysics (astro-ph) , Astrophysics Computational , Astrophysics
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Max Planck Institute for Extraterrestrial Physics, Garching | Garching an der Alz, Bayern | Germany | 3 days ago
Physics invites applications from talented, ambitious graduating MSc students for a PhD position on Exploring Supernova Remnants in eROSITA and Multiwavelength Data (m/f/d) Job Code: 16/2025 The PhD project
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PhD in B-modes of Galaxy Shapes Faculty: Faculty of Science Department: Department of Physics Hours per week: 36 to 40 Application deadline: 20 September 2025 Apply now The Institute
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Max Planck Institute for Extraterrestrial Physics, Garching | Garching an der Alz, Bayern | Germany | 5 days ago
Physics invites applications from talented, ambitious graduating MSc students for a PhD position on Exploring Supernova Remnants in eROSITA and Multiwavelength Data (m/f/d) Job Code: 16/2025 The PhD project
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global LIGO Scientific Collaboration, as well as Australia's OzGrav Centre of Excellent for Gravitational-wave Discovery. "Nuclear astrophysics from gravitational waves: understanding dense matter in
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are coordinated by the Bonn-Cologne Graduate School of Physics and Astronomy (BCGS). The PhD programme involves three years of research-oriented thesis work leading to a doctoral degree in the field of Astrophysics
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school that offers a PhD programme in Physics, Astrophysics, and Astrochemistry. Open for students from all countries worldwide, the school intends to attract highly qualified and motivated young
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their spectroscopy and phase structure, and benchmarking phenomenological applications at the crossover between particle physics and astrophysics. This joint PhD programme is co-hosted, co-financed and co-supervised
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modelling astrophysical phenomena. The PhD project will focus on developing theoretical methods to generate accurate data to meet this demand. The student will gain expertise in high-performance computational
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Understanding factors related to student retention and experience in physics and astrophysics major units. Using quantitative (surveys) and qualitative data (interviews with students) this project