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Field
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Nanophononics is a promising field with great potential for controlling sound and heat at the nanometer scale. Over the past thirty years, intensive research on the vibrational properties of semiconductor
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to understand the temporal variations in solar and cosmic background noise measured by the various detectors comprising the instrument, to relate them to solar activity that occurred during the mission, and to
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. Within this position, you will advance the development of vibration-based structural health monitoring (SHM) system for large movable hydraulic structures. The work will primarily address the fluid
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aims to develop new MOPA (Master Oscillator-Power Amplifier) fiber laser sources with very narrow spectral bandwidths (<100 kHz), low noise, and optical output power in the 1-10 watt range
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. This involves method development, large-scale computations, and simulations of complex systems where magnetism is coupled to atomic structure and atomic vibrations. As postdoc, you will principally carry out
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is mainly experimental in nature, and the group is highly experienced in the use and development of techniques at large-scale neutron and photon sources, vibrational spectroscopy, and optical
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, sitting, walking, talking or hearing. No special vision requirements. Work Environment: Lab environment; moderate noise. Special Conditions Posting Details Posting Number 25ST2665 Posting Open Date Special
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the duties. The research tasks involve participation in epidemiological research projects examining the relationship between environmental exposures (air pollution, noise, light at night, green spaces) and
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laboratory environment. Must be able to perform laboratory research. Exposure: laboratory environment, moderate noise, hazardous chemicals. Some lifting may be required: laboratory items and/or boxes. Walking
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information and identifying/characterizing neuromodulatory (e.g. serotonergic) pathways that influence sound processing in the brain and cochlea. Using normal hearing and noise-induced hearing loss models, our