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(microelectromechanical systems) devices for X-ray optics at synchrotron radiation sources. Some background of the project is given in the publications listed below. The idea is to make highly nonlinear MEMS-based
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transition metal complexes, donor-acceptor pairs, and hybrid molecular-material interfaces. By designing and deploying state-of-the-art ultrafast nonlinear optical spectroscopy techniques—such as transient
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The Materials Science Division (MSD) at Argonne National Lab (ANL) is looking for an experimental postdoctoral candidate to conduct fundamental research in the areas of optically addressable atomic
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qubit-based quantum processors and connect them via a campus-scale fiber-optic network. The postdocs will design and fabricate superconducting transmon qubits and microwave-optical quantum transducers and
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) applications. This research aims to advance the fundamental understanding of quantum emitters by investigating their atomic structures and correlating them with optical properties. Emission dynamics will be
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the electronic, magnetic, and optical properties of 2D materials at ultrafast timescales, which holds promises for developing new energy technologies. The candidate is responsible for conceiving, planning, and
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simulation of x-rays involving their propagation through beamline optics, scattering from the sample, coded aperture, and ultimately their recording at the detector. This eDort will build on ongoing work
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completed. Knowledge of x-ray/optical/electron physics, including diffraction, optics, detectors, scattering etc. Experience with deep learning (DL) libraries such as Tensorflow, PyTorch, JAX etc. Experience
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exploration of time-resolved imaging of material behavior using advanced ultrafast electron microscopy techniques. The in-situ experiments will be driven by external electric fields and relevant optical stimuli
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for quantum information science, but many open questions remain regarding how to control the morphology and crystallinity of these host materials for exemplary performace as hosts for optically addressable spin