1,862 research outputs found

    Ageing: collagenase‐mediated collagen fragmentation as a rejuvenation target

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    Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/108666/1/bjd13267.pd

    Southeast South Dakota Experiment Farm Annual Progress Report, 1961

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    This is the first annual progress report of the South East South Dakota Experiment Station in Beresford, South Dakota. This annual progress report includes research on the following topics: Brief History of SESD Experiment Farm, Introduction, Fertility and Cultural Practice Experiments, Corn Yield Tests, Sorghum and Soybean Testing, Small Grain Variety Testing, Grasses and Legumes, Crop Diseases

    PCV117 Identification of Hospital Guidelines for Prevention of Venous Thromboembolism (VTE) in Hospitalized Non-Surgical Medically-Ill Patients in the United States

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    Intelligent fault location for low voltage distribution networks

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    Paper describing intelligent fault location for low voltage distribution networks

    New Criticality of 1D Fermions

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    One-dimensional massive quantum particles (or 1+1-dimensional random walks) with short-ranged multi-particle interactions are studied by exact renormalization group methods. With repulsive pair forces, such particles are known to scale as free fermions. With finite mm-body forces (m = 3,4,...), a critical instability is found, indicating the transition to a fermionic bound state. These unbinding transitions represent new universality classes of interacting fermions relevant to polymer and membrane systems. Implications for massless fermions, e.g. in the Hubbard model, are also noted. (to appear in Phys. Rev. Lett.)Comment: 10 pages (latex), with 2 figures (not included

    Fabrication and characterization of (Bi,Pb)-Sr-Ca-Cu-O (2223) bars

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    Properties of Flares-Generated Seismic Waves on the Sun

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    The solar seismic waves excited by solar flares (``sunquakes'') are observed as circular expanding waves on the Sun's surface. The first sunquake was observed for a flare of July 9, 1996, from the Solar and Heliospheric Observatory (SOHO) space mission. However, when the new solar cycle started in 1997, the observations of solar flares from SOHO did not show the seismic waves, similar to the 1996 event, even for large X-class flares during the solar maximum in 2000-2002. The first evidence of the seismic flare signal in this solar cycle was obtained for the 2003 ``Halloween'' events, through acoustic ``egression power'' by Donea and Lindsey. After these several other strong sunquakes have been observed. Here, I present a detailed analysis of the basic properties of the helioseismic waves generated by three solar flares in 2003-2005. For two of these flares, X17 flare of October 28, 2003, and X1.2 flare of January 15, 2005, the helioseismology observations are compared with simultaneous observations of flare X-ray fluxes measured from the RHESSI satellite. These observations show a close association between the flare seismic waves and the hard X-ray source, indicating that high-energy electrons accelerated during the flare impulsive phase produced strong compression waves in the photosphere, causing the sunquake. The results also reveal new physical properties such as strong anisotropy of the seismic waves, the amplitude of which varies significantly with the direction of propagation. The waves travel through surrounding sunspot regions to large distances, up to 120 Mm, without significant decay. These observations open new perspectives for helioseismic diagnostics of flaring active regions on the Sun and for understanding the mechanisms of the energy release and transport in solar flares.Comment: 12 pages, 4 figures, submitted to Ap

    Numerical continuation methods: a perspective

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    AbstractIn this historical perspective the principal numerical approaches to continuation methods are outlined in the framework of the mathematical sources that contributed to their development, notably homotopy and degree theory, simplicial complexes and mappings, submanifolds defined by submersions, and singularity and foldpoint theory

    25th-order high-temperature expansion results for three-dimensional Ising-like systems on the simple cubic lattice

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    25th-order high-temperature series are computed for a general nearest-neighbor three-dimensional Ising model with arbitrary potential on the simple cubic lattice. In particular, we consider three improved potentials characterized by suppressed leading scaling corrections. Critical exponents are extracted from high-temperature series specialized to improved potentials, obtaining Îł=1.2373(2)\gamma=1.2373(2), Îœ=0.63012(16)\nu=0.63012(16), α=0.1096(5)\alpha=0.1096(5), η=0.03639(15)\eta=0.03639(15), ÎČ=0.32653(10)\beta=0.32653(10), ÎŽ=4.7893(8)\delta=4.7893(8). Moreover, biased analyses of the 25th-order series of the standard Ising model provide the estimate Δ=0.52(3)\Delta=0.52(3) for the exponent associated with the leading scaling corrections. By the same technique, we study the small-magnetization expansion of the Helmholtz free energy. The results are then applied to the construction of parametric representations of the critical equation of state, using a systematic approach based on a global stationarity condition. Accurate estimates of several universal amplitude ratios are also presented.Comment: 40 pages, 15 figure

    Criticality in confined ionic fluids

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    A theory of a confined two dimensional electrolyte is presented. The positive and negative ions, interacting by a 1/r1/r potential, are constrained to move on an interface separating two solvents with dielectric constants ϔ1\epsilon_1 and ϔ2\epsilon_2. It is shown that the Debye-H\"uckel type of theory predicts that the this 2d Coulomb fluid should undergo a phase separation into a coexisting liquid (high density) and gas (low density) phases. We argue, however, that the formation of polymer-like chains of alternating positive and negative ions can prevent this phase transition from taking place.Comment: RevTex, no figures, in press Phys. Rev.
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