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structure, dynamics, and switching mechanisms at the nanoscale, including optical manipulation of polarization states. Design and execution of experiments demonstrating optical control of ferroelectric
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the working group focus is the analysis of nonlinear wave and dispersive equations. Our ideal candidate already has experience with methods of PDEs, in particular Harmonic Analysis, and is able to actively
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the working group focus is the analysis of nonlinear wave and dispersive equations. Our ideal candidate already has experience with methods of PDEs, in particular Harmonic Analysis, and is able to actively
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, Nonlinear and Complex Systems , Nonlinear Integral Systems, Classical and Quantum , Optical Physics , optics , Optics and Photonics , Optomechanics , Photoelectron spectroscopies , Photon-based Scattering and
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Application deadline: 31/01/2026 Research theme: Control Engineering, Robotics UK only This 3.5-year PhD studentship is open to Home (UK) applicants. The successful candidate will receive an annual
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maintenance strategies represents a major industrial challenge at the intersection of system dynamics, control theory, and advanced signal processing. Current approaches exhibit complementary limitations: data
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scientific challenges in a welcoming and collegial atmosphere. Our successful track record of scientific achievements ranges from nanophotonics, nonlinear photonics, and fibre lasers to medical lasers and bio
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combine electricity, heat, hydrogen, CO₂, and other energy carriers with greenhouse climate control, resulting in a highly coupled, nonlinear, multi-timescale dynamical system. Your work will focus
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. Key research directions may include: Nonlinear control for complex robotic systems Distributed optimization and coordination in multi-agent systems Game-theoretic modelling of cooperative and
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verification and synthesis methods for the resilient control of hybrid dynamical systems. In addition to a strong background in linear systems and control theory, you must have a keen interest in nonlinear and