2,922 research outputs found
Growth-induced blisters in a circular tube
The growth of an elastic film adhered to a confining substrate might lead to
the formation of delimitation blisters. Many results have been derived when the
substrate is flat. The equilibrium shapes, beyond small deformations, are
determined by the interplay between the sheet elastic energy and the adhesive
potential due to capillarity. Here, we study a non-trivial generalization to
this problem and consider the adhesion of a growing elastic loop to a confining
\emph{circular} substrate. The fundamental equations, i.e., the Euler Elastica
equation, the boundary conditions and the transversality condition, are derived
from a variational procedure. In contrast to the planar case, the curvature of
the delimiting wall appears in the transversality condition, thus acting as a
further source of adhesion. We provide the analytic solution to the problem
under study in terms of elliptic integrals and perform the numerical and the
asymptotic analysis of the characteristic lengths of the blister. Finally, and
in contrast to previous studies, we also discuss the mechanics and the internal
stresses in the case of vanishing adhesion. Specifically, we give a theoretical
explanation to the observed divergence of the mean pressure exerted by the
strip on the container in the limit of small excess-length
Effects of thickness on the spin susceptibility of the 2D electron gas
Using available quantum Monte Carlo predictions for a strictly 2D electron
gas, we have estimated the spin susceptibility of electrons in actual devices
taking into account the effect of the finite transverse thickness and finding a
very good agreement with experiments. A weak disorder, as found in very clean
devices and/or at densities not too low, just brings about a minor enhancement
of the susceptibility.Comment: 4 pages, 3 figure
A stochastic delay differential model of cerebral autoregulation
Mathematical models of the cardiovascular system and of cerebral autoregulation (CAR) have been employed for several years in order to describe the time course of pressures and flows changes subsequent to postural changes. The assessment of the degree of efficiency of cerebral auto regulation has indeed importance in the prognosis of such conditions as cerebro-vascular accidents or Alzheimer. In the quest for a simple but realistic mathematical description of cardiovascular control, which may be fitted onto non-invasive experimental observations after postural changes, the present work proposes a first version of an empirical Stochastic Delay Differential Equations (SDDEs) model. The model consists of a total of four SDDEs and two ancillary algebraic equations, incorporates four distinct delayed controls from the brain onto different components of the circulation, and is able to accurately capture the time course of mean arterial pressure and cerebral blood flow velocity signals, reproducing observed auto-correlated error around the expected drift
Spin Susceptibility of Interacting Two-dimensional Electrons with Anisotropic Effective Mass
We report measurements of the spin susceptibility in dilute (rs up to 10)
AlAs two-dimensional (2D) electrons occupying a single conduction-band valley
with an anisotropic in-plane Fermi contour, characterized by longitudinal and
transverse effective masses, ml and mt. As the density is decreased, the spin
susceptibility is significantly enhanced over its band value, reflecting the
role of interaction. Yet the enhancement is suppressed compared to the results
of quantum Monte Carlo based calculations that take the finite thickness of the
electron layer into account but assume an isotropic effective mass equal to
sqrt(ml.mt). Proper treatment of an interacting 2D system with an anisotropic
effective mass therefore remains a theoretical challenge.Comment: 4 pages, 3 figures, accepted for publication in Phys. Rev.
Correlation Energy and the Spin Susceptibility of the Two-Valley Two-dimensional Electron Gas
We find that the spin susceptibility of a two-dimensional electron system
with valley degeneracy does not grow critically at low densities, at variance
with experimental results [A. Shashkin et al., Phys. Rev. Lett. 96, 036403
(2006)]. We ascribe this apparent discrepancy to the weak disorder present in
experimental samples. Our prediction is obtained from accurate correlation
energies computed with state of-the-art diffusion Monte Carlo simulations and
fitted with an analytical expression which also provides a local spin density
functional for the system under investigation.Comment: 7 pages, 3 figures, accepted for publication in Phys. Rev.
Early impairment of endothelial structure and function in young normal-weight women with polycystic ovary syndrome
The aim of this study was to evaluate the presence of early vascular damage in young normal-weight women with polycystic ovary syndrome (PCOS).Thirty young normal-weight women with PCOS, who had no additional metabolic or cardiovascular diseases, and 30 healthy women (controls) matched for age and body mass index were studied. A complete hormonal assay was performed in each subject. Serum insulin and glucose levels were measured at baseline and after the oral glucose tolerance test. Plasma endothelin-1 levels and serum lipid profile were also assessed. The endothelial function was studied by flow-mediated dilation on the brachial artery, and arterial structure was evaluated by intima-media thickness measurement using Doppler ultrasound of both common carotid arteries.A significant (P < 0.05) difference in flow-mediated dilation (14.3 +/- 1.9% vs. 18.1 +/- 2.0% for PCOS patients and controls, respectively) and in intima-media thickness (0.53 +/- 0.09 mm vs. 0.39 +/- 0.08 mm for PCOS patients and controls, respectively) was found between PCOS and control subjects. Serum endothelin-1 levels were also significantly (P < 0.05) higher in PCOS patients compared with controls (1.1 +/- 0.4 pmol/liter vs. 0.5 +/- 0.2 pmol/liter for PCOS patients and controls, respectively).In conclusion, our data show that young, normal-weight, nondyslipidemic, nonhypertensive women with PCOS have an early impairment of endothelial structure and function
Design and 3D printing of a modular phantom of a uterus for medical device validation
PurposeThe purpose of this study is to describe the design and validation of a three-dimensional (3D)-printed phantom of a uterus to support the development of uterine balloon tamponade devices conceived to stop post-partum haemorrhages (PPHs). Design/methodology/approachThe phantom 3D model is generated by analysing the main requirements for validating uterine balloon tamponade devices. A modular approach is implemented to guarantee that the phantom allows testing these devices under multiple working conditions. Once finalised the design, the phantom effectiveness is validated experimentally. FindingsThe modular phantom allows performing the required measurements for testing the performance of devices designed to stop PPH. Social implicationsPPH is the leading obstetric cause of maternal death worldwide, mainly in low- and middle-income countries. The proposed phantom could speed up and optimise the design and validation of devices for PPH treatment, reducing the maternal mortality ratio. Originality/valueTo the best of the authors' knowledge, the 3D-printed phantom represents the first example of a modular, flexible and transparent uterus model. It can be used to validate and perform usability tests of medical devices
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