Evolution of the Industrial Wage Structure in China Since 1980

Industry mean wages in China have exhibited sharply increased dispersion since the early 1990s. The upward trend in differences of average wages among major industry groups parallels increases in wage and income inequality not only between rural and urban sectors but within the urban economy as well. Research on the trend has focused on (1) how market forces have led to a better match between worker pay and worker skills; on (2a) how the growing share of employment in the private sector has “caused” growing wage inequality; and (2b) how residual government control in a few industrial sectors has contributed to wage inequality due monopoly rent sharing. We show that the industrial wage dispersion in China has evolved to match long-recognized international patterns of industrial wage dispersion and that an increasing proportion of industrial wage dispersion can be explained as returns to observed worker characteristics.inequality, China, industry-wage structure

Simulation of iced wing aerodynamics

The sectional and total aerodynamic load characteristics of moderate aspect ratio wings with and without simulated glaze leading edge ice were studied both computationally, using a three dimensional, compressible Navier-Stokes solver, and experimentally. The wing has an untwisted, untapered planform shape with NACA 0012 airfoil section. The wing has an unswept and swept configuration with aspect ratios of 4.06 and 5.0. Comparisons of computed surface pressures and sectional loads with experimental data for identical configurations are given. The abrupt decrease in stall angle of attack for the wing, as a result of the leading edge ice formation, was demonstrated numerically and experimentally

Measurements and predictions of flame/stretch interactions of hydrogen-fueled laminar premixed flames

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77081/1/AIAA-2000-574-702.pd

Flame/stretch interactions of heavy-hydrocarbon/O/N premixed flames

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76511/1/AIAA-1999-321-776.pd

Shifted energy fluxes, increased Bowen ratios, and reduced thaw depths linked with drainage-induced changes in permafrost ecosystem structure

Hydrologic conditions are a key factor in Arctic ecosystems, with strong influences on ecosystem structure and related effects on biogeophysical and biogeochemical processes. With systematic changes in water availability expected for large parts of the northern high-latitude region in the coming centuries, knowledge on shifts in ecosystem functionality triggered by altered water levels is crucial for reducing uncertainties in climate change predictions. Here, we present findings from paired ecosystem observations in northeast Siberia comprising a drained and a control site. At the drainage site, the water table has been artificially lowered by up to 30 cm in summer for more than a decade. This sustained primary disturbance in hydrologic conditions has triggered a suite of secondary shifts in ecosystem properties, including vegetation community structure, snow cover dynamics, and radiation budget, all of which influence the net effects of drainage. Reduced thermal conductivity in dry organic soils was identified as the dominating drainage effect on energy budget and soil thermal regime. Through this effect, reduced heat transfer into deeper soil layers leads to shallower thaw depths, initially leading to a stabilization of organic permafrost soils, while the long-term effects on permafrost temperature trends still need to be assessed. At the same time, more energy is transferred back into the atmosphere as sensible heat in the drained area, which may trigger a warming of the lower atmospheric surface layer.Peer reviewe

Numerical simulation of pullout behavior of embedded suction anchors in clay

As the offshore wind power tends to locate farther from the coast for efficient generation of electricity,\ud the interest of foundation systems of which construction sequence is economical and convenient under deep water\ud circumstance is increasing. Mooring anchor system has been utilized as one of the most popular ways for anchoring of\ud vessels or floating structures, and various types of anchor and mooring system have been investigated for large\ud structures under diverse loading condition. In this paper, the pullout behavior of the modified embedded suction anchor\ud (ESA) is studied using numerical analysis. The behavior of the embedded suction anchor is simulated using finite\ud element method, and Adaptive Meshing (AM) technique approach incorporated in Abaqus/Explicit is applied to\ud simulate the large deformation of soil caused by continuous pullout of anchor. The three dimensional modeling is\ud performed to duplicate the round body shape with flanges of the embedded suction anchor. The anchor is assumed as\ud rigid body and clay is considered as a linear elastic-perfectly plastic soil model with a Tresca yield criterion. The\ud pullout capacities after different initial rotations show similar results with the maximum horizontal pullout capacity and\ud the load inclination of 30?? or 40?? at the bottom point of the ESA has an advantage in that reduced pullout load can rotate\ud the ESA

M-Theory in the Gaugeon Formalism

In this paper we will analyse the Aharony-Bergman-Jafferis-Maldacena (ABJM) theory in $\mathcal{N}=1$ superspace formalism. We then study the quantum gauge transformations for this ABJM theory in gaugeon formalism. We will also analyse the extended BRST symmetry for this ABJM theory in gaugeon formalism and show that these BRST transformations for this theory are nilpotent and this in turn leads to the unitary evolution of the $\mathcal{S}$-matrix.Comment: 8 pages, 0 figures, accepted for publication in Comm. Theor. Phy

Evaluation of peak-picking algorithms for protein mass spectrometry

Peak picking is an early key step in MS data analysis. We compare three commonly used approaches to peak picking and discuss their merits by means of statistical analysis. Methods investigated encompass signal-to-noise ratio, continuous wavelet transform, and a correlation-based approach using a Gaussian template. Functionality of the three methods is illustrated and discussed in a practical context using a mass spectral data set created with MALDI-TOF technology. Sensitivity and specificity are investigated using a manually defined reference set of peaks. As an additional criterion, the robustness of the three methods is assessed by a perturbation analysis and illustrated using ROC curves

The Path Integral Monte Carlo Calculation of Electronic Forces

We describe a method to evaluate electronic forces by Path Integral Monte Carlo (PIMC). Electronic correlations, as well as thermal effects, are included naturally in this method. For fermions, a restricted approach is used to avoid the ``sign'' problem. The PIMC force estimator is local and has a finite variance. We applied this method to determine the bond length of H$_2$ and the chemical reaction barrier of H+H$_2\longrightarrow$H$_2$+H. At low temperature, good agreement is obtained with ground state calculations. We studied the proton-proton interaction in an electron gas as a simple model for hydrogen impurities in metals. We calculated the force between the two protons at two electronic densities corresponding to Na ($r_s=3.93$) and Al ($r_s=2.07$) using a supercell with 38 electrons. The result is compared to previous calculations. We also studied the effect of temperature on the proton-proton interaction. At very high temperature, our result agrees with the Debye screening of electrons. As temperature decreases, the Debye theory fails both because of the strong degeneracy of electrons and most importantly, the formation of electronic bound states around the protons.Comment: 18 pages, 10 figure

Interaction between M2-branes and Bulk Form Fields

We construct the interaction terms between the world-volume fields of multiple M2-branes and the 3- and 6-form fields in the context of ABJM theory with U($N$)$\times$U($N$) gauge symmetry. A consistency check is made in the simplest case of a single M2-brane, i.e, our construction matches the known effective action of M2-brane coupled to antisymmetric 3-form field. We show that when dimensionally reduced, our couplings coincide with the effective action of D2-branes coupled to R-R 3- and 5-form fields in type IIA string theory. We also comment on the relation between a coupling with a specific 6-form field configuration and the supersymmetry preserving mass deformation in ABJM theory.Comment: 30 pages, version to appear in JHE