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: Position Type: Student programs Position Location: Shenzhen, Guangdong 518172, China Subject Area: Particle Physics / Dark Matter Appl Deadline: 2025/12/15 11:59PM (posted 2024/11/03, listed until 2025/12
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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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-organization of active particles. Fabricate and characterize light-driven microswimmers. Use advanced optical microscopy and particle tracking to analyze their motion and interactions. Investigate emergent
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Transfer (LET) alpha-particles to cancer cells, maximising efficacy while minimising toxicity. Knowledge about radiation sensitivity, accrued mainly with sparsely ionising low-LET radiation (e.g. X-ray
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, biophysics, and materials science. In this PhD project, you will: Develop an experimental platform to study 3D self-organization of active particles. Fabricate and characterize light-driven microswimmers. Use
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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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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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, and materials science. In this PhD project, you will: Develop an experimental platform to study 3D self-organization of active particles. Fabricate and characterize light-driven microswimmers. Use
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mechanisms of virus self-assembly. RNA-containing viruses are complex, nanometre sized particles with at their centre proteins covering the RNA. We want to find out how these complex assemblies are built up
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Dresden. Your Tasks Modify particle surfaces through ligand exchange using existing or accessible ligands. Quantify the temperature- and concentration-dependent NPL colloidal stability and their self