1,657 research outputs found
Collective excitations and low temperature transport properties of bismuth
We examine the influence of collective excitations on the transport
properties (resistivity, magneto- optical conductivity) for semimetals,
focusing on the case of bismuth. We show, using an RPA approximation, that the
properties of the system are drastically affected by the presence of an
acoustic plasmon mode, consequence of the presence of two types of carriers
(electrons and holes) in this system. We found a crossover temperature T*
separating two different regimes of transport. At high temperatures T > T* we
show that Baber scattering explains quantitatively the DC resistivity
experiments, while at low temperatures T < T* interactions of the carriers with
this collective mode lead to a T^5 behavior of the resistivity. We examine
other consequences of the presence of this mode, and in particular predict a
two plasmon edge feature in the magneto-optical conductivity. We compare our
results with the experimental findings on bismuth. We discuss the limitations
and extensions of our results beyond the RPA approximation, and examine the
case of other semimetals such as graphite or 1T-TiSe_2
Planar Rayleigh scattering results in helium-air mixing experiments in a Mach-6 wind tunnel
Planar Rayleigh scattering measurements with an argon—fluoride excimer laser are performed to investigate helium mixing into air at supersonic speeds. The capability of the Rayleigh scattering technique for flow visualization of a turbulent environment is demonstrated in a large-scale, Mach-6 facility. The detection limit obtained with the present setup indicates that planar, quantitative measurements of density can be made over a large cross-sectional area (5 cm × 10 cm) of the flow field in the absence of clusters
RASSF4: Regulator of plasma membrane PI(4,5)P2.
Phosphatidylinositol 4,5-bisphosphate (PI(4,5)P2) is a negatively charged phospholipid that plays a major role in recruiting and regulating proteins at the plasma membrane-cytosol interface. In this issue, Chen et al. (2017. J. Cell Biol. https://doi.org/10.1083/jcb.201606047) demonstrate that RAS association domain family 4 (RASSF4) positively influences PI(4,5)P2 synthesis through ARF6-dependent regulation of PIP5K
Recommended Guidelines for the Design of the Federal Docket Management System (FDMS)
The Administration's eRulemaking Initiative will have important implications for access to regulatory information, both for those who work on rules and those organizations and citizens who are affected by rules. These scholars of rulemaking suggest priorities that should guide the eRulemaking Initiative so that all interested parties can better understand and contribute to this common and important mode of policymaking. Collectively,they have studied rulemaking at dozens of regulatory agencies across the federal government. Based ontheir extensive experience using agencies' rulemaking dockets and accessing information from them fortheir research,they believe three principles are vital in designing the forthcoming Federal Docket Management System (FDMS): Consistency in Data: Every effort should be made to keep data fields consistent, both across agencies and over time. Consistency over time is especially important, so that information available in a post-Regulations.Gov era can be matched with earlier information. Flexibility of Search: Users should be able to define their own searches using any of the fields within the docket system. They should also be able to combine different fields. Ease of Access: Users should be able not only to search docket data in a self-defined way, but should be able to download and export search results in commonly used formats, such as comma-separated or Excel or both. Additional signatories of this letter include: Richard N. L. Andrews, Michael Asimow, Bernard W. Bell, Lori Snyder Bennear, Barbara H. Brandon, John Brehm, Gary Bryner, Professor Johnny C. Burris, Mariano-Florentino Cu
Hypersonic Wake Diagnostics Using Laser Induced Fluorescence Techniques
A review of recent research performed in iodine that involves a two photon absorption of light at 193 nm will be discussed, and it's potential application to velocimetry measurements in a hypersonic flow field will be described. An alternative seed atom, Krypton, will be presented as a good candidate for performing nonintrusive hypersonic flow diagnostics. Krypton has a metastable state with a lifetime of approximately 43 s which would prove useful for time of flight measurement (TOF) and a sensitivity to collisions that can be utilized for density measurements. Calculations using modest laser energies and experimental values show an efficiency of excited state production to be on the order of 10(exp -6) for a two photon absorption at 193 nm
Structural and magnetic properties of E-Fe_{1-x}Co_xSi thin films deposited via pulsed laser deposition
We report pulsed laser deposition synthesis and characterization of
polycrystalline Fe1-xCox Si thin films on Si (111). X-ray diffraction,
transmission electron, and atomic force microscopies reveal films to be dense,
very smooth, and single phase with a cubic B20 crystal structure.
Ferromagnetism with significant magnetic hysteresis is found for all films
including nominally pure FeSi films in contrast to the very weak paramagnetism
of bulk FeSi. For Fe1-xCoxSi this signifies a change from helimagnetism in
bulk, to ferromagnetism in thin films. These ferromagnetic thin films are
promising as a magnetic-silicide/silicon system for polarized current
production, manipulation, and detection.Comment: 12 pages, 4 figures accepted in the Applied Physics Letter
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