12,030 research outputs found
Optimal Learning in Detection Situations First Semiannual Status Report, Period Ending Jun. 30, 1966
Sensitization learning of humans in acoustical task
Optimal learning in detection situations Semiannual status report
Models for improvement of performance in psychophysical task
Development of low cost contacts to silicon solar cells
A copper based contact system using plated Pd-Cr-Cu was developed. Good cells were made but cells degraded under low temperature (300 C) heat treatments. The degradation was identified as copper migration into the cells junction region. A paper study was conducted to find a proper barrier to the copper migration problem. Nickel was identified as the best candidate barrier and this was verified in a heat treatment study using evaporated metal layers. An electroless nickel solution was substituted for the electroless chromium solution in the original process
Echinococcus multilocularis coproantigen detection by enzyme-linked immunosorbent assay in fox, dog, and cat populations
A sandwich enzyme-linked immunosorbent assay (ELISA) for the detection of Echinococcus multilocularis coproantigens (EM-ELISA) was developed with polyclonal rabbit (solid phase) and chicken egg (catching) antibodies that were directed against E. multilocularis coproantigens and somatic worm antigens, respectively. In experimentally infected dogs and cats, coproantigens were first detectable 6-17 days postinfection (PI) in samples of 8 dogs (worm burdens at necropsy: 6,330-43,200) and from 11 days PI onward in samples of 5 cats infected with 20-6,833 worms. After anthelmintic treatment of 4 dogs and 5 cats at day 20 PI, coproantigen excretion disappeared within 3-5 days. The sensitivity of the ELISA was 83.6% in 55 foxes infected with 4-60,000 E. multilocularis, but reached 93.3% in the 45 foxes harboring more than 20 worms. The EM-ELISA was used in surveys of 'normal' dog and cat populations in Switzerland. Among 660 dogs and 263 cats, 5 dogs and 2 cats exhibited a positive reaction. In 2 of these dogs (0.30%) and 1 cat (0.38%), intestinal E. multilocularis infections were confirmed by necropsy, polymerase chain reaction PCR, or both. The specificities of the ELISA in these groups were found to be 99.5% and 99.6%, respectively, if positive ELISA results that could not be confirmed by other methods were classified as 'false positive' reactions
Silicon Solar Cell Process Development, Fabrication and Analysis, Phase 1
Solar cells from RTR ribbons, EFG (RF and RH) ribbons, dendritic webs, Silso wafers, cast silicon by HEM, silicon on ceramic, and continuous Czochralski ingots were fabricated using a standard process typical of those used currently in the silicon solar cell industry. Back surface field (BSF) processing and other process modifications were included to give preliminary indications of possible improved performance. The parameters measured included open circuit voltage, short circuit current, curve fill factor, and conversion efficiency (all taken under AM0 illumination). Also measured for typical cells were spectral response, dark I-V characteristics, minority carrier diffusion length, and photoresponse by fine light spot scanning. the results were compared to the properties of cells made from conventional single crystalline Czochralski silicon with an emphasis on statistical evaluation. Limited efforts were made to identify growth defects which will influence solar cell performance
Improved calibration of the radii of cool stars based on 3D simulations of convection: implications for the solar model
Main sequence, solar-like stars (M < 1.5 Msun) have outer convective
envelopes that are sufficiently thick to affect significantly their overall
structure. The radii of these stars, in particular, are sensitive to the
details of inefficient, super-adiabatic convection occurring in their outermost
layers. The standard treatment of convection in stellar evolution models, based
on the Mixing-Length Theory (MLT), provides only a very approximate description
of convection in the super-adiabatic regime. Moreover, it contains a free
parameter, alpha_MLT, whose standard calibration is based on the Sun, and is
routinely applied to other stars ignoring the differences in their global
parameters (e.g., effective temperature, gravity, chemical composition) and
previous evolutionary history. In this paper, we present a calibration of
alpha_MLT based on three-dimensional radiation-hydrodynamics (3D RHD)
simulations of convection. The value of alpha_MLT is adjusted to match the
specific entropy in the deep, adiabatic layers of the convective envelope to
the corresponding value obtained from the 3D RHD simulations, as a function of
the position of the star in the (log g, log T_eff) plane and its chemical
composition. We have constructed a model of the present-day Sun using such
entropy-based calibration. We find that its past luminosity evolution is not
affected by the entropy calibration. The predicted solar radius, however,
exceeds that of the standard model during the past several billion years,
resulting in a lower surface temperature. This illustrative calculation also
demonstrates the viability of the entropy approach for calibrating the radii of
other late-type stars.Comment: 16 pages, 14 figures, accepted for publication in the Astrophysical
Journa
Regular quantum graphs
We introduce the concept of regular quantum graphs and construct connected
quantum graphs with discrete symmetries. The method is based on a decomposition
of the quantum propagator in terms of permutation matrices which control the
way incoming and outgoing channels at vertex scattering processes are
connected. Symmetry properties of the quantum graph as well as its spectral
statistics depend on the particular choice of permutation matrices, also called
connectivity matrices, and can now be easily controlled. The method may find
applications in the study of quantum random walks networks and may also prove
to be useful in analysing universality in spectral statistics.Comment: 12 pages, 3 figure
Determination of the copper layer thickness in spin valves by grazing incidence x-ray fluorescence
We show that at the standard laboratory wavelength
of CuKα the scattering factors of Cu and Ni(-0.8)Fe(-0.2) are
identical, thereby making it impossible to distinguish the
boundary of the Cu spacer layer in a Cdpermalloy spin valve
structure from grazing incidence x-ray reflectivity curves. Use of grazing incidence fluorescence, in conjunction with x-ray reflectivity provides sufficient information to control the Cu layer thickness. We demonstrate the technique on two spin valves with Cu spacer layers differing in thickness by a factor
of 2.5
Foundations of Publicly Subsidized Sport Stadiums: The Case of U.S. Bank Stadium
This study aims to address the common considerations concerning publicly subsidized sport stadiums. To provide an in-depth illustration into this process, a case study narrative of the Minnesota Vikings’ journey to receiving a public subsidization totaling 498 million in public subsidies to help pay for the $1.1 billion U.S. Bank Stadium. The Vikings and U.S. Bank Stadium case study depicts an in-depth examination into the foundations, justification, and business of financing a modern professional sport stadium
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