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of Technology and one part-time professor. The group has three research tracks: freeform design, imaging optics and improved direct methods; for more details see https://martijna.win.tue.nl/Optics/ . The text
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areas. The areas of the faculty's active research are: nanotechnology, spintronics, opto-electronics, renewable power, integrated electrical/biological/optical circuits and systems, image processing and
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; multispectral/hyperspectral optical imaging; nonlinear optical spectroscopy and imaging techniques), Biophotonics (optical bioimaging of living systems in vitro and in vivo), Phototheranostics (Optical imaging
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required: nonlinear optics (e.g. optical parametric amplifiers), electrical switching, high-frequency electronics, thermal transport physics, and beamline experiments at user facilities. Besides technical
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such as spectrally controlled reflectivity and transmission, down conversion, light trapping and light extraction, nonlinear effects, and solar cells. The work involves electromagnetic modeling
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professor. The group has three research tracks: freeform design, imaging optics and improved direct methods; for more details see https://martijna.win.tue.nl/Optics/ . The following mathematical disciplines
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National Institutes of Natural Sciences, National Institute for Physiological Sciences | Japan | 2 months ago
] (Upon hiring) In this call, we seek an early-career researcher dedicated to advancing laser microscopy toward higher sophistication and super-resolution using nonlinear optics or promoting high-definition
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, and laboratory operations. Responsibilities include: Applying advanced understanding of ultrafast spectroscopy, nonlinear optics, and materials physics to research problems. Conducting literature
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applications received within the response period via the link below will be considered. Where to apply Website https://www.academictransfer.com/en/jobs/357916/postdoc-on-stable-optical-circu… Requirements
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—CIMAP and IRCER for the growth of new laser crystals and ceramics, and CORIA for laser optics—through the ANR DUPLEX project (Dysprosium for Ultrashort-Pulse Lasers using Low-Phonon Crystals for Emission