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Interaction of the westerlies with the Tibetan Plateau in determining the Mei-Yu termination
This study explores how the termination of the mei-yu is dynamically linked to the westerlies impinging on the Tibetan Plateau. It is found that the mei-yu stage terminates when the maximum upper-tropospheric westerlies shift beyond the northern edge of the plateau, around 408N. This termination is accompanied by the disappearance of tropospheric northerlies over northeastern China. The link between the transit of the jet axis across the northern edge of the plateau, the disappearance of northerlies, and termination of the mei-yu holds on a range of time scales from interannual through seasonal and pentad. Diagnostic analysis indicates that the weakening of the meridional moisture contrast and meridional wind convergence, mainly resulting from the disappearance of northerlies, causes the demise of the mei-yu front. The authors propose that the westerlies migrating north of the plateau and consequent weakening of the extratropical northerlies triggers the mei-yu termination. Model simulations are employed to test the causality between the jet and the orographic downstream northerlies by repositioning the northern edge of the plateau. As the plateau edge extends northward, orographic forcing on the westerlies strengthens, leading to persistent strong downstream northerlies and a prolonged mei-yu. Idealized simulations with a dry dynamical core further demonstrate the dynamical link between the weakening of orographically forced downstream northerlies with the positioning of the jet from south to north of the plateau. Changes in the magnitude of orographically forced stationary waves are proposed to explain why the downstream northerlies disappear when the jet axis migrates beyond the northern edge of the plateau
Theoretical Study of Natural Convection Flows in Closed-End Cylindrical Vessels Final Report
Analytical solutions of natural convection flows in closed-end cylindrical vessels to obtain exact temperature and velocity distributions in laminar flow region under steady state conditio
Subsonic flow and supersonic cross-flow near the center portion of a wing Final technical report
Analysis of supersonic conical flow and solutions for subsonic region on compression side of delta win
Self-Tuning Adaptive-Controller Using Online Frequency Identification
A real time adaptive controller was designed and tested successfully on a fourth order laboratory dynamic system which features very low structural damping and a noncolocated actuator sensor pair. The controller, implemented in a digital minicomputer, consists of a state estimator, a set of state feedback gains, and a frequency locked loop (FLL) for real time parameter identification. The FLL can detect the closed loop natural frequency of the system being controlled, calculate the mismatch between a plant parameter and its counterpart in the state estimator, and correct the estimator parameter in real time. The adaptation algorithm can correct the controller error and stabilize the system for more than 50% variation in the plant natural frequency, compared with a 10% stability margin in frequency variation for a fixed gain controller having the same performance at the nominal plant condition. After it has locked to the correct plant frequency, the adaptive controller works as well as the fixed gain controller does when there is no parameter mismatch. The very rapid convergence of this adaptive system is demonstrated experimentally, and can also be proven with simple root locus methods
An Outer Gap Model of High-Energy Emission from Rotation-Powered Pulsars
We describe a refined calculation of high energy emission from
rotation-powered pulsars based on the Outer Gap model of Cheng, Ho \&~Ruderman
(1986a,b). We have improved upon previous efforts to model the spectra from
these pulsars (e. g. Cheng, et al. 1986b; Ho 1989) by following the variation
in particle production and radiation properties with position in the outer gap.
Curvature, synchrotron and inverse-Compton scattering fluxes vary significantly
over the gap and their interactions {\it via} photon-photon pair production
build up the radiating charge populations at varying rates. We have also
incorporated an approximate treatment of the transport of particle and photon
fluxes between gap emission zones. These effects, along with improved
computations of the particle and photon distributions, provide very important
modifications of the model gamma-ray flux. In particular, we attempt to make
specific predictions of pulse profile shapes and spectral variations as a
function of pulse phase and suggest further extensions to the model which may
provide accurate computations of the observed high energy emissions.Comment: 13 pages, LaTeX, for figures send request to [email protected]
Origins of Inert Higgs Doublets
We consider beyond the standard model embedding of inert Higgs doublet
fields. We argue that inert Higgs doublets can arise naturally in grand unified
theories where the necessary associated symmetry can occur automatically.
Several examples are discussed.Comment: 14 pages, 1 table, no figure. References adde
Conflation of short identity-by-descent segments bias their inferred length distribution
Identity-by-descent (IBD) is a fundamental concept in genetics with many
applications. In a common definition, two haplotypes are said to contain an IBD
segment if they share a segment that is inherited from a recent shared common
ancestor without intervening recombination. Long IBD segments (> 1cM) can be
efficiently detected by a number of algorithms using high-density SNP array
data from a population sample. However, these approaches detect IBD based on
contiguous segments of identity-by-state, and such segments may exist due to
the conflation of smaller, nearby IBD segments. We quantified this effect using
coalescent simulations, finding that nearly 40% of inferred segments 1-2cM long
are results of conflations of two or more shorter segments, under demographic
scenarios typical for modern humans. This biases the inferred IBD segment
length distribution, and so can affect downstream inferences. We observed this
conflation effect universally across different IBD detection programs and human
demographic histories, and found inference of segments longer than 2cM to be
much more reliable (less than 5% conflation rate). As an example of how this
can negatively affect downstream analyses, we present and analyze a novel
estimator of the de novo mutation rate using IBD segments, and demonstrate that
the biased length distribution of the IBD segments due to conflation can lead
to inflated estimates if the conflation is not modeled. Understanding the
conflation effect in detail will make its correction in future methods more
tractable
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