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of very high energy particles (VHE) and that they are likely sources of (VHE) neutrinos. Understanding where and how particles are accelerated in these extreme environments has thus become a key question
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of particle acceleration and the Sun's interaction with the local interstellar medium. See https://spacephysics.princeton.edu/ for more information about the Space Physics Group at Princeton University
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of High Energy Physics (HEPHY) of the Austrian Academy of Sciences in Vienna, Austria, performs a rich experimental particle physics research program participating in accelerator and non-accelerator-based
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to the success of the whole institution. At the Faculty of Physics, Institute of Nuclear and Particle Physics, the Chair of Accelerator Mass Spectrometry and Isotope Research offers in close cooperation with
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, their achievements and productivity to the success of the whole institution. At the Faculty of Physics, Institute of Nuclear and Particle Physics, the Chair of Accelerator Mass Spectrometry and Isotope Research offers
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of quantum sensors for acceleration sensing is a key priority due to its potential to revolutionise inertial navigation, environmental monitoring and geological surveying. Presently, the acceleration sensing
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for launch in 2025 to explore the details of particle acceleration and the Sun's interaction with the local interstellar medium. See https://spacephysics.princeton.edu/ for more information about the Space
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Area of research: Scientific / postdoctoral posts Starting date: 14.08.2025 Job description: GSI Helmholtzzentrum für Schwerionenforschung in Darmstadt operates one of the leading particle
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(NREL), where world-class scientists, engineers, and experts are accelerating energy innovation through breakthrough research and systems integration. From our mission to our collaborative culture, NREL
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particle and photon sources owing to their ability to sustain accelerating fields on the scale of hundreds of GV/m — three orders of magnitude higher than radio-frequency accelerators. At DESY, we're