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. Description: This research spans several aspects of understanding the dynamics and structure of the Earth‘s crust and mantle to assess and mitigate hazards from earthquakes, landslides, and land subsidence
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unconstrained to date. Selected NPP fellows will help conduct research regarding the crystal structures, phase transition/behavior, heat capacity, thermal stability and reaction of these materials using a
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. Description: Coronal mass ejections (CMEs) are large-scale magnetized plasma structures ejected from the Sun with speeds ranging from a few to more than 2000 kilometers per second. The CMEs impart energy and
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system of the solar interior and the solar atmosphere using a combination of theory, simulation, and data analysis investigations. Theoretical studies and computer modeling of the internal structure
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on fundamental wind properties and diagnose instability-induced shocks. Photometric variability is used to understand large- and small-scale wind structure. Winds of magnetic massive stars show evidence for large
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construction of prototype receivers (single-pixel and multi-pixel) based on mechanical cryocoolers. The previous experience with THz mixers, TES detectors, THz receivers & measurements, and corresponding
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) Structure formation of the Universe and evolution of clusters of galaxies; (2) Circulation history of baryonic matter in the Universe; (3) Transport and circulation of energy in the Universe; (4) New science
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data is used to estimate vegetation 3D structure parameters such as height. The radar data (Interferometric Synthetic Aperture Radar or inSAR) was collected by spaceborne ALOS/PALSAR and airborne UAVSAR
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as bow and limb shocks, pickup ion acceleration, the growth of various wave modes in the mass loaded solar wind, cometary ray structures, ionosheath plasma depletion layers, drift mirror waves
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nuclei, gamma-ray bursts, pulsars, and structure formation shocks, as well as calculating fluxes of gamma rays, neutrinos, and cosmic rays from models of the annihilation or decay of dark matter. The fate