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ionization mass spectrometry (EIMS), arguably the most important technique in mass spectrometry, may require diabatic or non-adiabatic approaches. The energy deposition function must be modeled because it is
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. A key component of the project is high sensitivity magnetic scanning microscopy of these nano-objects, most likely using SQUID magnetometers. We are seeking a postdoc with background in scanning
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function of the hydrogen concentration. This information provides insight into the chemistry and physics of hydrogen adsorption/absorption, which is then used to identify the most promising avenues
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) Artificial Intelligence (AI)-based predictions. These instruments raise concerns about safety because they rely on black-box AI models and do not contain any guardrails if physical and/or digital parts
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typically employ near-UV (355 nm) lasers. This is problematic because specimens of interest are often nanostructures variously composed of semiconductors, metals, oxides, nitrides--and sometimes even
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combs in the near-infrared and mid-infrared spectral regions. Our goal is to develop end-to-end capabilities in this area, including electromagnetic design and modeling of waveguides, cleanroom
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the most highly enriched silicon in the world. We are depositing this silicon onto natural silicon substrates and using it to fabricate electronic and quantum devices that provide feedback
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/absorption, which is then used to identify the most promising avenues for the synthesis of new materials with the improved CO2 capture and conversion performance. key words Carbon dioxide absorption; Carbon
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NIST only participates in the February and August reviews. Summary: Localization microscopy has left the resolution limit in the rearview optics. However, most localization measurements are precise
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orientations in most engineering materials have some preferential distribution due to processing conditions and deformation history, referred to as crystallographic texture. This texture affects the initial