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goal is to develop targeted therapeutic strategies that modulate ion channel activity. Under the guidance of the principal investigator, the postdoc will take responsibility for specific, ongoing
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cellular systems. Research efforts emphasize labile metal pools and systems‑level understanding of metal ion metabolism and homeostasis in whole cells. The position also involves investigating
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Ion Collider is also possible. Active participation in the Zero Degree Calorimeter detector calibration will also be possible. Some simulation studies on the EIC and the complementary future
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-ray measurements at Argonne’s Advanced Photon Source and complementary optical spectroscopy. The position offers a highly collaborative environment with experts in electronic materials and devices
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range of molecular systems, including: Transition-metal complexes (e.g., chiral ruthenium and iridium complexes) Local and nonlocal inner-shell decay processes in solvated ions and transition-metal
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Turbulence is the primary obstacle to achieving stable, high-performance plasma in fusion reactors. It disrupts energy confinement, preventing the realization of a clean, limitless energy source. Recent
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. Hugues de Riedmatten. The group has experience in quantum technologies for quantum networks, including quantum memories, quantum light sources, quantum frequency conversion and quantum processing nodes
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structure; Lattice QCD; , Heavy-ion collisions , High-Energy Physics , High-Energy QCD, Parton Saturation , Lattice QCD , Low-energy nuclear theory , Nuclear and Particle Theory, Dark Matter , Nuclear
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researcher’s projects will focus primarily on HRMS analysis of bioaccumulative PFASs and microbial transformation products of polycyclic aromatic hydrocarbons (PAHs) using an Agilent 6560 ion mobility quadrupole
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Description: Apply Position Description The Duke Quantum Center is seeking a Postdoctoral Researcher to work on ion trap quantum computer and quantum network projects, supporting/advancing research in quantum