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functional features that enabled them to respond to environmental cues, including temperature, pH, light, magnetic fields, and ultrasound. This project will develop the materials, methods, and designs
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a growing field, with many applications in biomedical devices, electronics, and autonomous machines. Actuators to drive these robots utilise electronic, chemical, pressure, magnetic, or thermal
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their magnetic state at the nanoscale using scanning NV center magnetometry, both at 4K and room temperature. We will in particular examine domain walls, as their internal structure should give us insight about
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magnetic-assisted or ultrasonic-assisted manufacturing would be advantageous. Good oral and written communication skills with the ability to prepare presentations, reports and journal papers to the highest
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thermocurrent spectroscopy in the presence of large magnetic fields and at cryogenic temperatures. Your tasks Synthesis of graphene nanoribbons using chemical vapour deposition Nanofabrication of quantum devices
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of condensed matter systems, spin qubits, magnetism, spintronics, spin-related phenomena in semiconducting materials, quantum many-body physics, and quantum information and computing, are welcomed to apply
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these robots utilise electronic, chemical, pressure, magnetic, or thermal mechanisms, with the current generation having significant drawbacks, including low energy efficiency, high operating voltage
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Job Id: 10809 Fixed-term of 3 years | Part-time with 65% (25 hours/week) | Salary according to TV-L E13 | Clinic for Radiology / Experimental Magnetic Resonance Group We are UKM. We have a clear
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superconductors . Project Description Multiferroic materials exhibiting coexisting electric and magnetic orders and a strong magnetoelectric coupling, are at the frontier of condensed matter physics due
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matter physics (superconductivity, Bose-Einstein condensation, quantum Hall effect, quantum computing, quantum magnetism). More information For more information, please contact Elisa Chisari at n.e.chisari