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Max Planck Institute for Gravitational Physics, Potsdam-Golm | Potsdam, Brandenburg | Germany | about 1 month ago
gravitational-wave sources (binary black holes, neutron star binaries, and stellar collapse of massive stars), electromagnetic counterparts of gravitational waves, high-energy astrophysical phenomena, and to
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Offer Description Job position Researcher Job position requirements (skills/languages/required experience) - Ph.D. in Electronics (or equivalent topic) - Experience in the use of Electromagnetic
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laser pulses, you will generate and control THz-frequency electromagnetic fields capable of switching magnetic states on picosecond timescales, far faster than conventional microwave-based methods
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to the many environmental exposures: including radiation, radon, electromagnet fields, noise, heat, air pollution and airborne pollen. We are currently looking for a: PhD Candidate in Epidemiology/Public Health
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“Electromagnetic models for spherical-wavefront U-MIMO THz communications”. Develop electromagnetic models for large antenna arrays with spherical wavefronts. Focus on deriving analytical models and channel limits
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project, to train students, to interact with colleagues with different backgrounds (physics, engineering, chemistry) and from different disciplines (i.e., spectroscopy, electromagnetism, material science
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well as emerging materials. These experimental techniques will be complemented by advanced electromagnetic modelling. Responsibilities and qualifications The ideal candidate will possess demonstrated expertise in
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interactions. The research will focus on designing plasmonic platforms to trap proteins non-invasively in aqueous environments, using the intense electromagnetic fields within nanogaps. Surface-enhanced Raman
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. Plasmonic cavities, with their ability to confine light at subwavelength scales, enable strong coupling between electromagnetic fields and molecular excitations [1-6]. This coupling can lead to the generation
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This PhD project investigates ultrafast optical switching in plasmonic nanogaps, leveraging their exceptional ability to confine electromagnetic fields into sub-nanometer volumes [1-6]. Plasmonic