4,560 research outputs found
A new capacitive sensor for displacement measurement in a surface force apparatus
We present a new capacitive sensor for displacement measurement in a Surface
Forces Apparatus (SFA) which allows dynamical measurements in the range of
0-100 Hz. This sensor measures the relative displacement between two
macroscopic opaque surfaces over periods of time ranging from milliseconds to
in principle an indefinite period, at a very low price and down to atomic
resolution. It consists of a plane capacitor, a high frequency oscillator, and
a high sensitivity frequency to voltage conversion. We use this sensor to study
the nanorheological properties of dodecane confined between glass surfaces.Comment: 7 pages, 8 figure
Experimental evidence of a natural parity state in Mg and its impact to the production of neutrons for the s process
We have studied natural parity states in Mg via the
Ne(Li,d)Mg reaction. Our method significantly improves the
energy resolution of previous experiments and, as a result, we report the
observation of a natural parity state in Mg. Possible spin-parity
assignments are suggested on the basis of published -ray decay
experiments. The stellar rate of the Ne(,)Mg
reaction is reduced and may give rise to an increase in the production of
s-process neutrons via the Ne(,n)Mg reaction.Comment: Published in PR
Conformational insights and vibrational study of a promising anticancer agent: the role of the ligand in Pd(ii)–amine complexes
This study reports the first complete vibrational analysis of a dinuclear polyamine-based compound displaying antitumour properties.</p
Numerical Solution of Differential Equations by the Parker-Sochacki Method
A tutorial is presented which demonstrates the theory and usage of the
Parker-Sochacki method of numerically solving systems of differential
equations. Solutions are demonstrated for the case of projectile motion in air,
and for the classical Newtonian N-body problem with mutual gravitational
attraction.Comment: Added in July 2010: This tutorial has been posted since 1998 on a
university web site, but has now been cited and praised in one or more
refereed journals. I am therefore submitting it to the Cornell arXiv so that
it may be read in response to its citations. See "Spiking neural network
simulation: numerical integration with the Parker-Sochacki method:" J. Comput
Neurosci, Robert D. Stewart & Wyeth Bair and
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2717378
Energy-Momentum Tensor of Field Fluctuations in Massive Chaotic Inflation
We study the renormalized energy-momentum tensor (EMT) of the inflaton
fluctuations in rigid space-times during the slow-rollover regime for chaotic
inflation with a mass term. We use dimensional regularization with adiabatic
subtraction and introduce a novel analytic approximation for the inflaton
fluctuations which is valid during the slow-rollover regime. Using this
approximation we find a scale invariant spectrum for the inflaton fluctuations
in a rigid space-time, and we confirm this result by numerical methods. The
resulting renormalized EMT is covariantly conserved and agrees with the
Allen-Folacci result in the de Sitter limit, when the expansion is exactly
linearly exponential in time. We analytically show that the EMT tensor of the
inflaton fluctuations grows initially in time, but saturates to the value H^2
H(0)^2, where H is the Hubble parameter and H(0) is its value when inflation
has started. This result also implies that the quantum production of light
scalar fields (with mass smaller or equal to the inflaton mass) in this model
of chaotic inflation depends on the duration of inflation and is larger than
the usual result extrapolated from the de Sitter result.Comment: revtex style, 24 pages, 6 eps figures Numerical checks added and
moduli section improve
The Iowa Homemaker vol.8, no.10
Travel Tales of a Purnell Field Worker by Cleo Fitzsimmons, page 1
Milady Fashion Decrees by Isabel Leith, page 2
Spring Renovating by Frances Thomas, page 3
From Rags to Hooked Rugs by Gladys Parker Myers, page 3
Citrus Fruits Deluxe by Marian Chace, page 4
Freshman Hall by Ruth Stewart, page 5
Milk for Health, page 5
4-H Club by Lulu Tregoning, page 6
State Association by Marcia E. Turner, page 8
Home Economics Research by Mildred Deischer, page 10
Editorial, page 11
Alumnae News by Vera Caulum, page 1
PLAUR polymorphisms and lung function in UK smokers
<p>Abstract</p> <p>Background</p> <p>We have previously identified Urokinase Plasminogen Activator Receptor (<it>PLAUR</it>) as an asthma susceptibility gene. In the current study we tested the hypothesis that <it>PLAUR </it>single nucleotide polymorphisms (SNPs) determine baseline lung function and contribute to the development of Chronic Obstructive Pulmonary Disease (COPD) in smokers.</p> <p>Methods</p> <p>25 <it>PLAUR </it>SNPs were genotyped in COPD subjects and individuals with smoking history (n = 992). Linear regression was used to determine the effects of polymorphism on baseline lung function (FEV<sub>1</sub>, FEV<sub>1</sub>/FVC) in all smokers. Genotype frequencies were compared in spirometry defined smoking controls (n = 176) versus COPD cases (n = 599) and COPD severity (GOLD stratification) using logistic regression.</p> <p>Results</p> <p>Five SNPs showed a significant association (p < 0.01) with baseline lung function; rs2302524(Lys220Arg) and rs2283628(intron 3) were associated with lower and higher FEV<sub>1 </sub>respectively. rs740587(-22346), rs11668247(-20040) and rs344779(-3666) in the 5'region were associated with increased FEV<sub>1</sub>/FVC ratio. rs740587 was also protective for COPD susceptibility and rs11668247 was protective for COPD severity although no allele dose relationship was apparent. Interestingly, several of these associations were driven by male smokers not females.</p> <p>Conclusion</p> <p>This study provides tentative evidence that the asthma associated gene <it>PLAUR </it>also influences baseline lung function in smokers. However the case-control analyses do not support the conclusion that <it>PLAUR </it>is a major COPD susceptibility gene in smokers. PLAUR is a key serine protease receptor involved in the generation of plasmin and has been implicated in airway remodelling.</p
Gravito-magnetic amplification in cosmology
Magnetic fields interact with gravitational waves in various ways. We
consider the coupling between the Weyl and the Maxwell fields in cosmology and
study the effects of the former on the latter. The approach is fully analytical
and the results are gauge-invariant. We show that the nature and the outcome of
the gravito-magnetic interaction depends on the electric properties of the
cosmic medium. When the conductivity is high, gravitational waves reduce the
standard (adiabatic) decay rate of the B-field, leading to its superadiabatic
amplification. In poorly conductive environments, on the other hand,
Weyl-curvature distortions can result into the resonant amplification of
large-scale cosmological magnetic fields. Driven by the gravitational waves,
these B-fields oscillate with an amplitude that is found to diverge when the
wavelengths of the two sources coincide. We present technical and physical
aspects of the gravito-magnetic interaction and discuss its potential
implications.Comment: Typos corrected, clarifications added, published in PR
In-Situ Anaerobic Heating of Human Bones Probed by Neutron Diffraction
The first neutron diffraction study of in-situ anaerobic burning of human bones is reported, aiming at an interpretation of heat-induced changes in bone, which were previously detected by vibrational spectroscopy, including inelastic neutron scattering techniques. Structural and crystallinity variations were monitored in samples of the human femur and tibia, as well as a reference hydroxyapatite, upon heating under anaerobic conditions. Information on the structural reorganization of the bone matrix as a function of temperature, from room temperature to 1000 °C, was achieved. Noticeable crystallographic and domain size variations, together with O–H bond lengths and background variations, were detected. Above 700 °C, the inorganic bone matrix became highly symmetric, devoid of carbonates and organic constituents, while for the lower temperature range (<700 °C), a considerably lower crystallinity was observed. The present pilot study is expected to contribute to a better understanding of the heat-prompted changes in bone, which can be taken as biomarkers of the burning temperature. This information is paramount for bone analysis in forensic science as well as in archeology and may also have useful applications in other biomaterial studies.info:eu-repo/semantics/publishedVersio
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