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implementations on computers. We are particularly interested in nonlinear optimization problems, which involve computationally intensive function evaluations. Such problems are ubiquitous; they arise in simulations
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of microbial communities. · Apply active learning strategies to optimize experimental design. · Integrate genetic and functional data using high-throughput experimental datasets. · Collaborate
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to the scale of the mesh and the hydrodynamic time step. This approach, currently being developed as part of a 5-month M2 internship, aims to reduce costs and optimize resources. Planck and Rosseland means
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to generate intense, isolated attosecond pulses at this beamline and use them for pump-probe studies of attosecond charge dynamics in molecules and for the study of the dynamics of nonlinear processes
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modelling, numerical methods for multiphysics problems, and the development of numerical optimization methods for virtual design of metamaterials and structures. Do you want to be part of a dynamic research
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positioned team of experts in the field of photonic components, laser sources, and nonlinear converters. You will contribute to the improvement of fiber components and new designs. You will independently work
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laboratory experiments using advanced spectroscopic techniques, including VSFG, SHG, IRRAS, and surface potential measurements. Maintain, align, and optimize ultrafast laser systems and nonlinear spectroscopic
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Ref.: 534817 Work type: Full-time Department: Department of Physics (25600) Categories: Senior Research Staff & Post-doctoral Fellow Institution: Department of Physics, University of Hong Kong
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, numerical methods for multiphysics problems, and the development of numerical optimization methods for virtual design of metamaterials and structures. Do you want to be part of a dynamic research environment
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