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mechanics to patient-specific prognosis. If you are eager to combine state-of-the-art computational tools with advanced microscopy to solve the puzzle of blood clot fracture and embolization, this is your
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omics data (genomics, transcriptomics, proteomics, metabolomics) and integrative multi-level analysis Experience in medical image processing and analysis (MRI, PET, digital histology, microscopy
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using atomic force microscopy (AFM), Raman spectroscopy, X-ray diffraction, X-ray photoemission spectroscopy (XPS) and Rutherford backscattering spectroscopy (RBS), • the transfer of 2D materials and van
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https://www.zhulab.fish The successful candidate will work under the supervision of the principal investigator and will play an integral role in daily research. Responsibilities* Responsibilities include
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Folding at the Single Molecule Level: RNA, DNA, Riboswitches, and Ribozymes David J. Nesbitt, JILA/Department of Chemistry/Department of Physics Biophysics, single molecule microscopy, FRET, time correlated
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: Manipulation of ultrashort laser pulses from an industrial ytterbium laser for high-order harmonic generation and photoemission electron microscopy of nanostructured samples. The project's goals, based on a
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computational data organization, microscopy image management, and research productivity. The role assists faculty and Principal Investigators in organizing, curating, and preparing large-scale microscopy image
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models of macrophage polarization and host response. Incorporate quantitative microscopy data to estimate parameters related to: Bacterial localization (intra-/extracellular), Replication dynamics
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-throughput characterization methods include spectroscopy, optical and scanned probe microscopy, scattering, reflectivity, ellipsometry, and contact angle measurements. See http://www.nist.gov/mml/polymers
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. Describe a deep learning project you have executed—ideally a creative use of a vision transformer, U-Net architecture, or Diffusion model that you trained yourself. Projects in computer vision for microscopy