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films and devices, or devices involving superconductor with graphene and other 2D materials, or ferroelectric devices. The successful candidate will lead in one of the areas of synthesis and quantum
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wide range of material parameters. The CFN develops and utilizes advanced capabilities for studies of Nanomaterials in Operando Conditions for characterizing materials and reactions at the atomic scale
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Vanderbilt University Dept. of Earth and Environmental Sciences | Nashville, Tennessee | United States | about 2 months ago
and four working cold seal pressure vessel systems are available for experiments. Experimental materials will be analyzed using a FIB-SEM, Raman spectroscopy, and Picarro for oxygen and hydrogen
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cryogenic scanning probe techniques and ultrafast THz optics to study a wide range of complex phenomena that can lead to new applications in the area of quantum information. The Postdoctoral Associate will be
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. Experience in trapping and manipulation of cold (neutral) atoms or ions for quantum information processing and/or quantum communication preferred. Desired Qualifications: Ability to work in a highly dynamic
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that has recently received several instrumental upgrades suited to meet the nanofabrication challenges in quantum device fabrication including atomic layer deposition, electron beam lithography, and direct
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building blocks for experimental platforms and quantum network architectural choices. The focus of this position is the development of a networking node based on neutral ytterbium atoms trapped in re
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control and data acquisition systems. Strong background in laser cooling and trapping of neutral atoms, ultra-cold quantum gases, precision measurement or a related research area is preferred. Ability
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evolution during reaction in aqueous solutions using optical, atomic force, and digital holographic microscopies Dynamically evolving interfacial structures will be observed using in-situ synchrotron-based
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low temperature ultrahigh vacuum (UHV) surface science and scanning probe microscopy (STM/AFM) techniques in close concert with in situ optical/RF quantum measurements at the single spin level. We will take