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experience Skills in using GEANT4/ Python/ LaTeX/ C++/ ROOT(CERN)/ Linux/ Monte Carlo simulation LanguagesROMANIANLevelExcellent LanguagesENGLISHLevelExcellent Research FieldPhysicsYears of Research
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composed of the following members: - Presidente/Chairwoman: Asal Kiazadeh, PhD; - Vogal/Member: Jonas Deuermeier, PhD; - Vogal/Member: Emanuel Carlos, PhD; - Vogal Suplente/Substitute Member: Joana Vaz Pinto
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solver techniques for time-harmonic wave propagation (governed by the Helmholtz equation) and sampling techniques (such as Monte Carlo methods), we aim to deliver computational tools capable of achieving
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inference and/or Monte Carlo methods. The numerical solution of partial differential equations. The initial contract duration will be of 1 year with ample possibilities for renewal. Our hope is to later on
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) transport; • Are familiar with chemical simulation techniques, including but not limited to density functional theory, molecular dynamics, (kinetic) Monte Carlo modeling, finite-element modeling, and multi
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– Carlos Alberto e Silva Venâncio, Assistant Professor at the University of Trás-os-Montes and Alto Douro; Effective Member – Paulo José Pinto Rema, Associate Professor with aggregation from the University
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framework. Building on discretisation and solver techniques for time-harmonic wave propagation (governed by the Helmholtz equation) and sampling techniques (such as Monte Carlo methods), we aim to deliver
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experimental approaches, with theoretical activities focusing on: Quantum mechanical calculations using density functional theory. Mean-field modeling and Monte Carlo simulations for reaction kinetics
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expertise will extend to various areas, including quantum Monte Carlo, machine learning, quantum computing, quantum machine learning, and tensor networks. These and other techniques will allow us to confront
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considered advantageous. Keenness to learn experimental and modelling techniques is a plus. Experience in one or more of the following areas is desirable: • Monte Carlo and micromagnetic techniques (e.g