1,339 research outputs found
Validation of GPS atmospheric water vapor with WVR data in satellite tracking mode
Slant-integrated water vapor (SIWV) data derived from GPS STDs (slant total delays), which provide the spatial information on tropospheric water vapor, have a high potential for assimilation to weather models or for nowcasting or reconstruction of the 3-D humidity field with tomographic techniques. Therefore, the accuracy of GPS STD is important, and independent observations are needed to estimate the quality of GPS STD. In 2012 the GFZ (German Research Centre for Geosciences) started to operate a microwave radiometer in the vicinity of the Potsdam GPS station. The water vapor content along the line of sight between a ground station and a GPS satellite can be derived from GPS data and directly measured by a water vapor radiometer (WVR) at the same time. In this study we present the validation results of SIWV observed by a ground-based GPS receiver and a WVR. The validation covers 184 days of data with dry and wet humidity conditions. SIWV data from GPS and WVR generally show good agreement with a mean bias of â0.4 kg mâ2 and an rms (root mean square) of 3.15 kg mâ2. The differences in SIWV show an elevation dependent on an rms of 7.13 kg mâ2 below 15° but of 1.76 kg mâ2 above 15°. Nevertheless, this elevation dependence is not observed regarding relative deviations. The relation between the differences and possible influencing factors (elevation angles, pressure, temperature and relative humidity) are analyzed in this study. Besides the elevation, dependencies between the atmospheric humidity conditions, temperature and the differences in SIWV are found
Intangible Investments and the Pricing of Corporate SGA Expenses
This study examined whether the market fully prices the reported Selling, General, and Administrative (SGA) expenses when this item includes an intangible investment component. For a sample of intangible investment-intensive firms, we showed that their SGA expenses benefit future operating performances. Evidence suggests some degree of market inefficiency in the pricing of SGA expenses and the intangible investment component. Furthermore, the financial analysts do not appear to appreciate fully the future benefits of the component in their earnings forecasts. Finally, the pertinent disclosures in firmsâ annual reports are so inadequate as to attenuate the market mispricing, suggesting a significant room for future improvement
Dynamics of a faceted nematic-smectic B front in thin-sample directional solidification
We present an experimental study of the directional-solidification patterns
of a nematic - smectic B front. The chosen system is C_4H_9-(C_6H_{10})_2CN (in
short, CCH4) in 12 \mu m-thick samples, and in the planar configuration
(director parallel to the plane of the sample). The nematic - smectic B
interface presents a facet in one direction -- the direction parallel to the
smectic layers -- and is otherwise rough, and devoid of forbidden directions.
We measure the Mullins-Sekerka instability threshold and establish the
morphology diagram of the system as a function of the solidification rate V and
the angle theta_{0} between the facet and the isotherms. We focus on the
phenomena occurring immediately above the instability threshold when theta_{0}
is neither very small nor close to 90^{o}. Under these conditions we observe
drifting shallow cells and a new type of solitary wave, called "faceton", which
consists essentially of an isolated macroscopic facet traveling laterally at
such a velocity that its growth rate with respect to the liquid is small.
Facetons may propagate either in a stationary, or an oscillatory way. The
detailed study of their dynamics casts light on the microscopic growth
mechanisms of the facets in this system.Comment: 12 pages, 19 figures, submitted to Phys. Rev.
Transport through a quantum wire with a side quantum-dot array
A noninteracting quantum-dot array side-coupled to a quantum wire is studied.
Transport through the quantum wire is investigated by using a noninteracting
Anderson tunneling Hamiltonian. The conductance at zero temperature develops an
oscillating band with resonances and antiresonances due to constructive and
destructive interference in the ballistic channel, respectively. Moreover, we
have found an odd-even parity in the system, whose conductance vanishes for an
odd number of quantum dots while becomes for an even number. We
established an explicit relation between this odd-even parity, and the
positions of the resonances and antiresonances of the conductivity with the
spectrum of the isolated QD arrayComment: 5 pages, 4 figures, submitted to PR
- âŠ