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and characterize spin qubits in semiconductor heterostructures. Your work will include optimizing qubit control and readout schemes and contributing to designing advanced architectures that pave the way
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knowledge of control theory, including linear, nonlinear, and optimal control Excellent mathematical, analytical and problem-solving skills Basic knowledge of robotic manipulator mechanics and control
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knowledge of control theory, including linear, nonlinear, and optimal control Excellent mathematical, analytical and problem-solving skills Basic knowledge of robotic manipulator mechanics and control
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spectroscopy Analysis of the intra- and interlayer interactions Optimization of growth towards 2D heterostructures formed from continuous layers with well-controlled interfaces Active exchange with collaboration