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consist of the following: Numerical simulation of multimode Raman interaction Mode excitation in optical fibers Characterize the modal purity of a multimode Raman amplifier Develop and implement spatial
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or passive components into organic substrates; has experiences in magnetic components design, optimization and integration; is familiar with the simulation tools such as Ansys (Maxwell, Q3D, Icepak), LTSpice
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efforts in materials physics and design, quantum optics, sensing and communication, biophysics, plasma physics, and continuum physics. Our research impacts society with new sustainable energy technologies
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. Experience with simulation tools, including Isaac Gym, Isaac Sim, Aerial Gym. Experience with ROS, and especially real-life aerial robots. Experience with open-source tools for deep learning, computer vision
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following: Prior work with probabilistic deep learning, Bayesian inference, and uncertainty quantification in computer vision. Experience with simulation tools, including Isaac Gym, Isaac Sim, Aerial Gym
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of the project Optically Stimulated Luminescence (OSL) is a multi-step phenomenon driven by the transport of electrons and holes across defects in the crystal lattice. Traditional models rely on simplified coupled
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techniques to manipulate material functionalities using tailored laser fields and optical cavities. By joining this network, you will contribute to advancements in: Controlling light-matter interaction and the
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the field of electrical engineering or physics. As an ideal candidate, you should also have one or more competences listed below: Experience in simulation, design, and layout of high-frequency integrated
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inference in the proposed models using advanced statistical and computational approaches, including Bayesian methods and other simulation-assisted methods, Design, implement and conduct immersive virtual