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. 4. Measurement of electrocaloric effects and pyroelectricity in ferro- and antiferroelectric oxide membranes. Requirements: · Education: Bachelor in Physics/Engineering. Master in Condensed Matter
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also be participating in the common activities of both groups, such as group meetings or journal clubs. Education: Bachelor level background in physics, nanoscience, materials science or engineering
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Environment Information, communication and quantum technologies Candidates can review the research lines here: http://icn2.cat/en/research During the application process, candidates will be asked to select the
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highly active group in the field of complex oxides, to work on an ambitious project that attempts to expand knowledge in the area condensed matter physics and materials science, using state of the art
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nanostructured materials is a challenging endeavor, due to the complexity of the physical processes and the multiple length and time scales involved. Transport of electrons, spins and heat (in the form of lattice
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research lines focus on the newly-discovered physical and chemical properties that arise from the behaviour of matter at the nanoscale. ICN2 has been awarded with the Severo Ochoa Center of Excellence
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that, they offer exciting possibilities to explore new physics in these multifunctional materials. This project aims to explore the tuning of oxide functionalities at the nanoscale via mechanical manipulation
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research lines focus on the newly-discovered physical and chemical properties that arise from the behaviour of matter at the nanoscale. ICN2 has been awarded with the Severo Ochoa Center of Excellence
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to the implementation of developed tools on the in-house LSQUANT code (www.lsquant.org) and computing architecture of TCN/ICN2 Requirements: Education: PhD in physics or electrical/ mechanical engineering Knowledge
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understanding, capabilities and innovation, while inspiring and providing broad training to the next generations of researchers. Our research lines focus on the newly discovered physical and chemical properties