1,459 research outputs found
Uniform high irradiance source
New 50 Kw xenon short arc lamp mounted within elliptical collector provides irradiance levels up to 4.4 x 10 to the 7th power watts/sq m with non-uniformity ratio of 3.30. Energy mixer or light pipe between lamp source and target improves non-uniformity to required ratio
Generic helical edge states due to Rashba spin-orbit coupling in a topological insulator
We study the helical edge states of a two-dimensional topological insulator
without axial spin symmetry due to the Rashba spin-orbit interaction. Lack of
axial spin symmetry can lead to so-called generic helical edge states, which
have energy-dependent spin orientation. This opens the possibility of inelastic
backscattering and thereby nonquantized transport. Here we find analytically
the new dispersion relations and the energy dependent spin orientation of the
generic helical edge states in the presence of Rashba spin-orbit coupling
within the Bernevig-Hughes-Zhang model, for both a single isolated edge and for
a finite width ribbon. In the single-edge case, we analytically quantify the
energy dependence of the spin orientation, which turns out to be weak for a
realistic HgTe quantum well. Nevertheless, finite size effects combined with
Rashba spin-orbit coupling result in two avoided crossings in the energy
dispersions, where the spin orientation variation of the edge states is very
significantly increased for realistic parameters. Finally, our analytical
results are found to compare well to a numerical tight-binding regularization
of the model.Comment: 21 pages (main text 11 pages), 11 figure
Computerized analytical technique for design and analysis of a Sabatier reactor subsystem Final engineering report
Mathematical model for computerized evaluation of Sabatier reaction kinetics in oxygen recovery from carbon dioxid
Electron-electron interaction effects in quantum point contacts
We consider electron-electron interaction effects in quantum point contacts on the first quantization plateau, taking into account all scattering processes. We compute the low-temperature linear and nonlinear conductance, shot noise, and thermopower, by perturbation theory and a self-consistent nonperturbative method. On the conductance plateau, the low-temperature corrections are solely due to momentum-nonconserving processes that change the relative number of left- and right-moving electrons. This leads to a suppression of the conductance for increasing temperature or voltage. The size of the suppression is estimated for a realistic saddle-point potential, and is largest in the beginning of the conductance plateau. For large magnetic field, interaction effects are strongly suppressed by the Pauli principle, and hence the first spin-split conductance plateau has a much weaker interaction correction. For the nonperturbative calculations, we use a self-consistent nonequilibrium Green's function approach, which suggests that the conductance saturates at elevated temperatures. These results are consistent with many experimental observations related to the so-called 0.7 anomaly
Temperature-dependent dynamical nuclear polarization bistabilities in double quantum dots in the spin-blockade regime
The interplay of dynamical nuclear polarization (DNP) and leakage current
through a double quantum dot in the spin-blockade regime is analyzed. A finite
DNP is built up due to a competition between hyperfine (HF) spin-flip
transitions and another inelastic escape mechanism from the triplets, which
block transport. We focus on the temperature dependence of the DNP for zero
energy-detuning (i.e. equal electrostatic energy of one electron in each dot
and a singlet in the right dot). Our main result is the existence of a
transition temperature, below which the DNP is bistable, so a hysteretic
leakage current versus external magnetic field B appears. This is studied in
two cases: (i) Close to the crossing of the three triplet energy levels near
B=0, where spin-blockade is lifted due to the inhomogeneity of the effective
magnetic field from the nuclei. (ii) At higher B-fields, where the two
spin-polarized triplets simultaneously cross two different singlet energy
levels. We develop simplified models leading to different transition
temperatures T_TT and T_ST for the crossing of the triplet levels and the
singlet-triplet level crossings, respectively. We find T_TT analytically to be
given solely by the HF couplings, whereas T_ST depends on various parameters
and T_ST>T_TT. The key idea behind the existence of the transition temperatures
at zero energy-detuning is the suppression of energy absorption compared to
emission in the inelastic HF transitions. Finally, by comparing the rate
equation results with Monte Carlo simulations, we discuss the importance of
having both HF interaction and another escape mechanism from the triplets to
induce a finite DNP.Comment: 26 pages, 17 figure
Soybeans as a home-grown supplement for dairy cows
Soybeans, grown on the farm, give promise of providing many dairymen with a valuable protein supplement for their dairy herds which will make them independent of the purchase of high-priced protein feeds. Investigations at the Iowa Agricultural Experiment Station show that soybeans make a palatable dairy feed, that they give good results in milk production when fed in place of other protein supplements, and that pound for pound they are a third more valuable than oilmeal, with which direct comparison was made.
A home-grown supplement of that kind would be especially valuable to Iowa dairy farms. These farms easily produce all of the roughages needed for the herds in both winter and summer, such as ensilage, clover, alfalfa hay and soiling crops. It is also relatively easy for them to provide the greater portion of the grain ration, as the home-grown corn and oats should form the basis of the concentrates fed. These two feeds, however, are relatively low in protein and so are the roughages, with the exception of the legume hays. It is necessary, therefore, to secure additional concentrates which will provide the extra protein needed, especially in the ration of heavy producing cows. This is one of the main problems of dairy farming today
Depressive symptoms in asymptomatic stage B heart failure with Type II diabetic mellitus.
BackgroundThe presence of concomitant Type II diabetic mellitus (T2DM) and depressive symptoms adversely affects individuals with symptomatic heart failure (HF).HypothesisIn presymptomatic stage B HF, this study hypothesized the presence of greater inflammation and depressive symptoms in T2DM as compared to non-T2DM Stage B patients.MethodsThis cross-sectional study examined clinical parameters, inflammatory biomarkers, and depressive symptoms in 349 T2DM and non-T2DM men with asymptomatic stage B HF (mean age 66.4 years ±10.1; range 30-91).ResultsFewer diabetic HF patients had left ventricular (LV) systolic dysfunction (P < .05) although more had LV diastolic dysfunction (P < .001). A higher percentage of T2DM HF patients were taking ACE-inhibitors, beta-blockers, calcium channel blockers, statins, and diuretics (P values < .05). T2DM HF patients had higher circulating levels of interleukin-6 (IL-6) (P < .01), tumor necrosis factor-alpha (P < .01), and soluble ST2 (sST2) (P < .01) and reported more somatic/affective depressive symptoms (Beck Depression Inventory II) (P < .05) but not cognitive/affective depressive symptoms (P = .20). Among all patients, in a multiple regression analysis predicting presence of somatic/affective depressive symptoms, sST2 (P = .026), IL-6 (P = .010), B-type natriuretic peptide (P = .016), and sleep (Pittsburgh Sleep Quality Index [P < .001]) were significant predictors (overall model F = 15.39, P < .001, adjusted R2 = .207).ConclusionsSomatic/affective but not cognitive/affective depressive symptoms are elevated in asymptomatic HF patients with T2DM patients. Linkages with elevated inflammatory and cardiac relevant biomarkers suggest shared pathophysiological mechanisms among T2DM HF patients with somatic depression, and these conditions are responsive to routine interventions, including behavioral. Copyright © 2019 John Wiley & Sons, Ltd
Ab initio vibrations in nonequilibrium nanowires
We review recent results on electronic and thermal transport in two different
quasi one-dimensional systems: Silicon nanowires (SiNW) and atomic gold chains.
For SiNW's we compute the ballistic electronic and thermal transport properties
on equal footing, allowing us to make quantitative predictions for the
thermoelectric properties, while for the atomic gold chains we evaluate
microscopically the damping of the vibrations, due to the coupling of the chain
atoms to the modes in the bulk contacts. Both approaches are based on a
combination of density-functional theory, and nonequilibrium Green's functions.Comment: 16 pages, to appear in Progress in Nonequilibrium Green's Functions
IV (PNGF4), Eds. M. Bonitz and K. Baltzer, Glasgow, August 200
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