12 high-performance-computing-postdoc positions at European Magnetism Association EMA in France
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stacking, both high performance and (very) high density can be achieved by this concept. The mission will be to explore, understand and develop the fundamental physics of device operation. This will require
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. Requirements: We are looking for a highly motivated candidate with a PhD in theoretical/computational physics or applied mathematics. A strong background in quantum mechanics and numerical simulations is
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. SOT-MTJs offer compelling advantages similar to SRAM, including ultra-fast dynamics (sub-ns), exception-al endurance (>1014 cycles), and low power operation (sub-pJ). A critical challenge in SOT-MRAM
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or PostDoc) will deal with the generation of spin and orbital electronic currents for spin–orbit torques in solid-state devices made of light metals, metallic ferromagnets and/or magnetic insulators. In
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controlled via structural phase transitions or external fields. The successful candidate will develop and apply a range of theoretical and computational methods based on first-principles electronic structure
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techniques have been demonstrated to enable spin-wave imaging with spatial resolution down to 50 nm with excellent signal to noise ratio. The PhD/postdoc will focus on investigating unexplored spin-wave
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is tenure-track Professorship at Université Grenoble Alpes, to be filled over one out of three laboratories: SPINTEC, Institut Néel and the High Magnetic Field Laboratory. The position consists of five
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(XRD) and macroscopic magnetic measurements. To separate the effects of “chemical” pressure from those of lattice expansion, XAS will also be conducted under applied external pressure. Additionally, high
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) — to join our team. You will be directly involved in developing and optimizing ion beam processes to improve device performance in MRAM and magnetic sensor applications. Beyond R&D, we are looking for a
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Description of the offer : Spin vertical external cavity surface emitting lasers (spin-VECSELs) reveal unprecedented advantages of spintronics for applications beyond magnetoresistance and have the potential to form a new generation of optical communication systems. Till now, the circular...