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understanding the influence of the dielectric environment on interlayer excitons and unraveling the mechanisms governing domain dynamics, such as flipping and domain wall propagation—central to the emerging
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to bring a next-generation light source online and employ it to explore ultrafast phase transitions, Mott physics, and coupled electron–lattice dynamics in complex materials. The successful candidate will
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, develop experimental methods, carry out planned and new experiments, analyse data, and publish results; Contribute to the group’s dynamics taking part in common research and methodology development
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of models. Experience in analytical and quantitative methods, such as deterministic and stochastic differential equations, integral equations, nonlinear dynamics, probability theory, and stochastic processes
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the area of Partial Differential Equations. The recruited researcher will conduct research in the field of nonlinear dispersive equations, with a particular focus on the dynamics of multisolitons
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in the field of nonlinear dispersive equations, with a particular focus on the dynamics of multisolitons. This research will be carried out within the framework of the ERC project 'INSOLIT,' led by
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side, you will investigate and develop data-driven methods for optimal and nonlinear control with a particular focus on dual control and on approaches to measurement scheduling and active sensing
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at the density-functional and dynamical mean-field-theory levels, metal-insulator and structural phase transitions, quantum critical points, nonlinear and anomalous responses, optical traps, quantum computation
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in English. Strong attention to detail and commitment to high-quality results. Preferred (most): Knowledge in reduced-order models for structural dynamics. Knowledge in nonlinear structural analysis
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will study the dynamics of air–mucus interfaces, the impact of airway geometry, and the relationships between mucus motion, airflow properties, and the main rheological characteristics of mucus such as