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Field
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-reciprocity of spin waves Angular Momentum of Magnons Magnetically doped Transition Metal Dichalcogenide Thin Films via Molecular Beam Epitaxy Modeling of a magnonic diode based on spin-wave non-reciprocity in
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, with experience form at least two of the following areas: electrical/electronic measurements, optical/e-beam lithography, biology/biochemistry and finite element analysis/ADS/EMPro. Applications from
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contribute in particular to the following areas: • the growth, by molecular beam epitaxy (MBE), of 2D material layers and their van der Waals heterostructures, • characterisation of the fabricated materials
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comprehensive training in IEMN's cleanroom facilities. The cleanroom work will rely on process modules including molecular beam epitaxy (MBE), dielectric deposition (PECVD and/or sputtering), optical lithography
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: Physics / Accelerator and Beam Physics , Accelerator and Plasma Physics , Accelerator Physics , adsorption and layered material physics , all subdisciplinary areas of Physics and Chemistry , Any , Applied
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grow new materials by molecular beam epitaxy, or create heterostructures of materials by exfoliating and stacking atomically thin layers from crystals, and fabricate nanoscale electronic devices
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a multi-nucleon transfer reaction induced by a 136Xe beam on a 198Pt target, enabling the investigation of a broad range of W–Pb isotopes. AGATA was coupled to the PRISMA large-acceptance magnetic
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impairments such as phase noise, I-Q imbalance and amplifier nonlinearities [9], that need proper compensation. Specific issues will be addressed in this project. Firstly, beam alignment between the transmitter
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isotopically-selective resonant ionisation mass spectrometry (RIMS) of sputtered atoms resulting from focused ion beam irradiation. A second ion beam is available for rapid ion-milling of the sample to obtain 3D
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, including beam-steering techniques, full-duplex operation, and self-interference mitigation. The project will explore innovative solutions using metasurfaces, multilayer structures, and advanced feeding