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Position Summary This position involves the development, implementation and refinement of novel image reconstruction methods for photoacoustic computed tomography (PACT). This will involve
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) technology. The approach relies on high-loss loopback couplers and polarization-resolved optical frequency domain reflectometry to sense beyond the optical repeaters on submarine telecommunication cables with
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to conduct clinical research with human eye specimens. Our work spans three major directions: * Basic Research: we investigate the cellular and molecular mechanisms of ocular tissue development and homeostasis
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the brain and the molecular basis underlying this effect, with an eye towards using this information for patient risk assessment and to identify new targets for therapeutic intervention. We utilize animal
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), positron emission tomography (PET), functional MRI (fMRI), electroencephalography (EEG), behavior, genetics, and proteomics using advanced quantitative modeling techniques and artificial intelligence
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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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isolation and transcriptomic analysis of retinal neurons, surgical approaches to optic nerve injury and glaucoma in mice, and adeno associated virus production and application. Develops proficiency in career