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. Candidates with interest and experience in the study of accreting black holes or neutron stars, and candidates with experience in multi-wavelength data analysis, coding pipelines for optical imaging
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expertise in the Rutgers CryoEM & Nanoimaging Facility (RCNF). The RCNF serves as a university-wide resource for the imaging and three-dimensional reconstruction of cells and biomolecules. As a member in the
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and simulation code BMAD. Essential Duties and Responsibilities: As part of a small team, optimize the electron beam spin polarization of the ESR by minimizing depolarizing effects through analytical
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support. Preferred Knowledge, Skills, and Abilities: Ability to program and debug python code, particularly Jupyter notebooks. Experience in working on collaborative software projects. Environmental, Health
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. The applicant will join an NIH-funded lab to engage in basic and translational neuroscience research. The laboratory uses in vivo 2-photon imaging, electrophysiology and optogenetic approaches to better
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a related field Experience with radiation transport codes (e.g., FLUKA, Geant4, MCNP etc.) Excellent programming and data analysis skills (e.g., Python, C++, or similar) Solid understanding
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immunofluorescence and antibody validation Immunofluorescence staining of tissues, microscopy, image analysis Contribute to general lab tasks Maintaining accurate and detailed records of experiments Basic
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will use a combination of scRNAseq, spatial transcriptomics, and highly-multiplexed imaging to understand how human macrophages respond to the early stages of cancer development. They will be a part of
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to be tested, modified, and improved during the project. The seafloor survey will image the scarps of active faults to understand the faults surface expression at different depths. The output will be 1
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radiation transport codes (e.g., FLUKA, Geant4, MCNP etc.) Excellent programming and data analysis skills (e.g., Python, C++, or similar) Solid understanding of particle-matter interactions Excellent written