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liquid phases have been predicted. It can be realized using atoms with two valence electrons, such as ytterbium or strontium. To investigate such SU(N) physics, our group has developed a quantum-gas
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qualities. We seek a highly motivated and creative individual who can independently lead research projects from conception to completion, while also contributing to collaborative team efforts. You should
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The University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 2 months ago
-associated complications. We seek to discover new anti-HIV latency therapeutic targets that will ultimately lead to the eradication of HIV, including kick and kill, direct killing, and deep latency. Various
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science. Preferably you have a background in STM/STS, photoelectron spectroscopy (ARPES, XPS) or Atomic Force Microscopy (AFM). Preferably you have experience with Ultra High Vacuum sample preparation
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The Department of Physics currently has about 100 employees and conducts research in areas such as Material Science and Nanotechnology, Atomic/Molecular and Optical Physics, Complex Systems and
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microscopy to build and perturb chromatin condensates in vitro and in cells, with the goal of revealing mechanisms that control genome organization and gene regulation. We are seeking an organized andcreative
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researchers whose expertise is complementary. Applicants may be primarily experimental or computational. We are especially interested in candidates who can cover a strong combination of skills (not necessarily
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interested in using microbes to combat cancer and autoimmune disease in humans. Our goal...to build an inexpensive and safe therapeutic using bacteria that can recruit and regulate tumor-targeting immune
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using microscopy techniques, including Scanning Electron Microscopy (SEM) and Atomic Force Microscopy (AFM). The candidate will also map the nanomechanical properties of implant surfaces, assessing
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behaviour remain largely enigmatic. Your work will focus on developing computational tools to bridge the gap between high-resolution magnetic observations and micromagnetic simulations. You will lead the