3,424 research outputs found
MORPHOLOGICAL ALTERATIONS OF THE CEPHALIC VEIN WALL AS A PAT OF A NATIVE RTERIOVENOUS FISTULA FOR CHRONIC HEMODIALYSIS
The creation of an internal arterio-venous fistula according to Brescia and Cimino (1966) changes the functional conditions of cephalic vein and radial artery. Arterial blood enters under high pressure the cephalic vein and turbulent blood flow appears. The pathomorphology of the cephalic vein incorporated in the internal native arterio-venous fistula (NAVF) for chronic hemodialysis was studied. Single portions of the vein were surgically removed from 16 patients aged from 20 to 60 years with failed NAVF and then excised because of repeated NAVF creation (group one) and from 3 patients where the vein was removed during the primary NAVF creation (group two). Light and transmission electron microscopy was used. In the first group, the intima and media of the cephalic vein was much ticker than that of the veins of the patients of the second and control group. The increased thickness of the venous intima was accompanied by an augmented number of smooth muscles cells and appearance of new layers while that of the media was followed by structural changes of its elastic network. These alterations depend on the duration of NAVF functioning
Saddle points in completely regular topological spaces
We give a characterization of completely regular topological spaces. Applying
some recent results for supinf problems in completely regular topological
spaces we establish a variational principle for saddle points. Well-posedness
of saddle point problems is studied as well
Multi-particle Production and Thermalization in High-Energy QCD
We argue that multi-particle production in high energy hadron and nuclear
collisions can be considered as proceeding through the production of gluons in
the background classical field. In this approach we derive the gluon spectrum
immediately after the collision and find that at high energies it is
parametrically enhanced by ln(1/x) with respect to the quasi-classical result
(x is the Bjorken variable). We show that the produced gluon spectrum becomes
thermal (in three dimensions) with an effective temperature determined by the
saturation momentum Qs, T= c Qs/2pi during the time ~1/T; we estimate
c=sqrt{2pi}/2 ~ 1.2. Although this result by itself does not imply that the
gluon spectrum will remain thermal at later times, it has an interesting
applications to heavy ion collisions. In particular, we discuss the possibility
of Bose-Einstein condensation of the produced gluon pairs and estimate the
viscosity of the produced gluon system.Comment: 25 pages, 4 figures; typos fixed; discussions expanded; we added a
new section IV in which we argue that at high energies the production
mechanism discussed in the paper is parametrically enhanced by ln(1/x) with
respect to the quasi-classical resul
Numerical investigation of high-pressure combustion in rocket engines using Flamelet/Progress-variable models
The present paper deals with the numerical study of high pressure LOx/H2 or
LOx/hydrocarbon combustion for propulsion systems. The present research effort
is driven by the continued interest in achieving low cost, reliable access to
space and more recently, by the renewed interest in hypersonic transportation
systems capable of reducing time-to-destination. Moreover, combustion at high
pressure has been assumed as a key issue to achieve better propulsive
performance and lower environmental impact, as long as the replacement of
hydrogen with a hydrocarbon, to reduce the costs related to ground operations
and increase flexibility. The current work provides a model for the numerical
simulation of high- pressure turbulent combustion employing detailed chemistry
description, embedded in a RANS equations solver with a Low Reynolds number
k-omega turbulence model. The model used to study such a combustion phenomenon
is an extension of the standard flamelet-progress-variable (FPV) turbulent
combustion model combined with a Reynolds Averaged Navier-Stokes equation
Solver (RANS). In the FPV model, all of the thermo-chemical quantities are
evaluated by evolving the mixture fraction Z and a progress variable C. When
using a turbulence model in conjunction with FPV model, a probability density
function (PDF) is required to evaluate statistical averages of chemical
quantities. The choice of such PDF must be a compromise between computational
costs and accuracy level. State- of-the-art FPV models are built presuming the
functional shape of the joint PDF of Z and C in order to evaluate
Favre-averages of thermodynamic quantities. The model here proposed evaluates
the most probable joint distribution of Z and C without any assumption on their
behavior.Comment: presented at AIAA Scitech 201
Spline Intersection Improvement
Rendering and simulation software needs many models of reality. Every human has hair and we need to visualize realistic hair. We can model hair with many spline curves. A typical task of the ray tracing method is finding an intersection of spline curves with a ray. We try to find a fast way to calculate the point where the ray intersects the curve
Pair production by boost-invariant fields in comoving coordinates
We derive the pair-production probability in a constant electric field in
Rindler coordinates in a quasi-classical approximation. Our result is different
from the pair-production probability in an inertial frame (Schwinger formula).
In particular, it exhibits non-trivial dependence on rapidity and deviation
from Gaussian behavior at small transverse momenta. Our results can be
important for analysis of particle production in heavy-ion collisions.Comment: 12 pages, 2 figures. Discussion added and typos fixe
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