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-of-the-art laboratory for fiber-optic communications and use the Nanofabrication Laboratory to fabricate our own photonic devices. About the research project At Chalmers you will be part of the FORCE
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. We perform both curiosity-driven and applied-research in the areas of fiber-optic systems, optoelectronics and silicon photonics. We enjoy a state-of-the-art laboratory for fiber-optic communications
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are seeking Postdoctoral Fellows in nonlinear optical fiber communication. You will join the Optical Communications Group (GTO) in the Communications and Electronics Department. The GTO is home to the research
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group, Division of Communication Systems, Antennas and Optical Networks, Departmet of Electrical Engineering. We pride ourselves on fostering scientific excellence, innovation, and collaboration with
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to funcional changes in mice, such as behavioural modulation and brain network activity by MRI. The candidate will use state-of-the-art optical tools: in vitro calcium imaging, in vivo fiber photometry
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 3 hours ago
, Cadence/Siemens Rf/Microwave EDA, Zemax, Optical Spectrum Analyzer, fiber splicer, RF/DC instruments, laser spectroscopy, Fabry-Perot cavity/delay-line characterization, on-chip waveguide characterization
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an electrolyser. Once suitable candidate materials have been identified, these materials can be deposited on optical fibers and a real fiber-sensor can be tested. Eventually, the aim is to develop hydrogen sensors
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of maladaptive social behaviors. We are dedicated to the development and application of innovative optical technologies aimed at understanding how social behavior is regulated in rodent brain. Our research targets
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. We are dedicated to the development and application of innovative optical technologies aimed at understanding how social behavior is regulated in rodent brain. Our research targets psychiatric
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. Massimo De Vittorio and Prof. Gianni Ciofani. You will share with the team the main responsibility of developing of investigating fiber-optic-based methodology to optically irradiate novel chemical