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experiments using time-resolved detectors and beam-splitting or structured illumination setups. Assist in the commissioning and operation of experimental hardware such as beam splitters, nonlinear crystals
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-propagator technique for dispersive phonons and the Diagrammatic Monte Carlo X-propagator technique for the calculation of optical conductivity and mobility of systems with nonlinear electron-phonon
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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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and contribute to our experimental studies. Ideal candidates will possess a strong understanding of nonlinear optics, plasma physics, and ultrafast lasers. Your expertise will be pivotal in advancing
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LSST. Projects will draw on new and archival observations from optical ground-based (e.g., Zwicky Transient Facility) and satellite (e.g., TESS) observatories, with potential supplementary data from X
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with measurement electronics for data acquisition, etc. Experience in the following areas is beneficial but not required: nonlinear optics (e.g. optical parametric amplifiers), electrical switching, high
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the corresponding area and strong publications. Excellent scientific writing ability and good communication skills are essential. A well-qualified candidate will also possess Expertise with nonlinear optics, plasma
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optimizing the squeezing of the vacuum to minimize quantum noise, a prototype cryogenic interferometer, using machine learning for nonlinear feedback control, devising techniques to quell opto-mechanical