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- Universitat de Barcelona
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Field
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. Our group combines state-of-the-art methods in experimental ultrafast spectroscopy and molecular dynamics simulations: We develop and apply novel ultrafast spectroscopic methods aimed at uncovering how
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/ ). These include physics beyond the Standard Model, formal aspects of quantum field theories, gravitation, cosmology and astroparticle physics. The members of the group are D. Blas, E. Masso, A. Pomarol, O. Pujolas
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electrochemical scanning probe microscopy including scanning tunnelling microscopy. Main Tasks and responsibilities: The successful candidate will combine classical electrochemical methods with in situ
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methods with in situ characterisation techniques such as in situ Raman spectroscopy (including SHINERS) and electrochemical mass spectrometry. This combination will be used to investigate the structure
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of inflation and phase transitions in the early universe. We are developing new data analysis methods like the use of deep learning and the use of robust statistics. This work is naturally extended to studying
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possession of the doctor's degree at the time of the formalization of the contract. Additional comments Duration of the contract of employment: 12 months, renewable (in 12 months periods) until the project’s
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photosynthetic membranes. Specifically, pump-probe ultrafast nanoscopy of transport in model OPVs and light-harvesting complexes. Specifically, advance structured excitation methods for low light level exciton
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sustainability of biomaterial manufacturing through safe design methods, machine learning, and predictive life cycle assessment as well as developing machine learning and hybrid digital modeling methods, combining
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broad experience in the development of electronic structure methods and their application in order to perform atomistic simulations of molecules and materials. These include (but are not restricted
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GGSolutions. The successful applicant is expected to conduct independent research on the monitoring of emerging pollutants in aquatic and biota samples through advanced analytical methods. This includes