1,395 research outputs found
Migrating from proprietary tools to open-source software for EAST-ADL metamodel generation and evolution
Open-source software has numerous advantages over proprietary commercial-off-The-shelf (COTS) software. However, there are modeling languages, tool chains, and tool frameworks that are developed and maintained in an open-source manner but still incorporate COTS tools. Such an incorporation of COTS tools into an overall open-source approach completely annihilates the actual open-source advantages and goals. In this tool paper, we demonstrate how we eliminated a COTS tool from the otherwise open-source-based generation and evolution workflow of the domain-specific modeling language East-Adl, used in the automotive industry to describe a variety of interdisciplinary aspects of vehicle systems. By switching to a pure open-source solution, East-Adl becomes easier to inspect, evolve, and develop a community around. We compare both the mixed COTS/open-source and the open-source-only workflows, outline the advantages of the open-source-only solution, and show that we achieve equivalent tooling features compared to the original approach
Universal amplitude ratios from numerical studies of the three-dimensional O(2) model
We investigate the three-dimensional O(2) model near the critical point by
Monte Carlo simulations and calculate the major universal amplitude ratios of
the model. The ratio U_0=A+/A- is determined directly from the specific heat
data at zero magnetic field. The data do not, however, allow to extract an
accurate estimate for alpha. Instead, we establish a strong correlation of U_0
with the value of alpha used in the fit. This numerical alpha-dependence is
given by A+/A- = 1 -4.20(5) alpha + O(alpha^2). For the special alpha-values
used in other calculations we find full agreement with the corresponding ratio
values, e. g. that of the shuttle experiment with liquid helium. On the
critical isochore we obtain the ratio xi+/xi-_T=0.293(9), and on the critical
line the ratio xi_T^c/xi_L^c=1.957(10) for the amplitudes of the transverse and
longitudinal correlation lengths. These two ratios are independent of the used
alpha or nu-values.Comment: 34 pages, 19 Ps-figures, Latex2e, revised version, to be published in
J. Phys.
Unraveling Binding Effects of Cobalt(II) Sepulchrate with the Monooxygenase P450 BM-3 Heme Domain Using Molecular Dynamics Simulations
One of the major limitations to exploit enzymes in industrial processes is their dependence on expensive reduction equivalents like NADPH to drive their catalytic cycle. Soluble electron transfer (ET) mediators like Cobalt(II)Sepulchrate have been proposed as a cost-effective alternative to shuttle electrons between an inexpensive electron source and enzyme redox center. The interactions of these molecules with enzymes are not elucidated at molecular level yet. Herein, molecular dynamics simulations are performed to understand the binding and ET mechanism of the Cobalt(II)Sepulchrate with the heme domain of cytochrome P450BM-3. The study provides a detailed map of ET mediator binding sites on protein surface that resulted prevalently composed by Asp and Glu amino acids. The Cobalt(II)Sepulchrate do not show a preferential binding to these sites. However, among the observed binding sites, only few of them provide efficient ET pathways to heme iron. The results of this study can be used to improve the ET mediator efficiency of the enzyme for possible biotechnological applications
Information, Employer Size, Training, and Wage Growth
We posit that larger employers possess greater information than smaller employers about the effects of on-the-job training (OJT) investments on the productivity of their workers. As a result, larger employers pay a greater percentage of OJT costs, and OJT is effectively more firm-specific at larger firms. Supporting our model, we find: (1) the positive effect of productivity growth on wage growth is smaller in larger plants; (2) the adverse effect of minimum wage on wage growth is smaller in larger plants; and (3) the negative effect of initial OJT investments on starting wages is smaller in larger plants.Firm; Firms; On the Job Training; Pay; Productivity; Training; Wage
Pion and Rho Structure Functions from Lattice QCD
We calculate the lower moments of the deep-inelastic structure functions of
the pion and the rho meson on the lattice. Of particular interest to us are the
spin-dependent structure functions of the rho. The calculations are done with
Wilson fermions and for three values of the quark mass, so that we can perform
an extrapolation to the chiral limit.Comment: 30pp, LaTeX2e with 15 eps figures using epsfig. Postscript file also
available from ftp://ftp.th.physik.uni-frankfurt.de/pub/cbest/pionrho.ps or
http://www.th.physik.uni-frankfurt.de/~cbest/pionrho.p
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Removing biofilms from microstructured titanium Ex Vivo: A novel approach using atmospheric plasma technology
The removal of biofilms from microstructured titanium used for dental implants is a still unresolved challenge. This experimental study investigated disinfection and removal of in situ formed biofilms from microstructured titanium using cold atmospheric plasma in combination with air/water spray. Titanium discs (roughness (Ra): 1.96 μm) were exposed to human oral cavities for 24 and 72 hours (n = 149 each) to produce biofilms. Biofilm thickness was determined using confocal laser scanning microscopy (n = 5 each). Plasma treatment of biofilms was carried out ex vivo using a microwave-driven pulsed plasma source working at temperatures from 39 to 43°C. Following plasma treatment, one group was air/water spray treated before re-treatment by second plasma pulses. Vital microorganisms on the titanium surfaces were identified by contact culture (Rodac agar plates). Biofilm presence and bacterial viability were quantified by fluorescence microscopy. Morphology of titanium surfaces and attached biofilms was visualized by scanning electron microscopy (SEM). Total protein amounts of biofilms were colorimetrically quantified. Untreated and air/water treated biofilms served as controls. Cold plasma treatment of native biofilms with a mean thickness of 19 μm (24 h) to 91 μm (72 h) covering the microstructure of the titanium surface caused inactivation of biofilm bacteria and significant reduction of protein amounts. Total removal of biofilms, however, required additional application of air/water spray, and a second series of plasma treatment. Importantly, the microstructure of the titanium discs was not altered by plasma treatment. The combination of atmospheric plasma and non-abrasive air/water spray is applicable for complete elimination of oral biofilms from microstructured titanium used for dental implants and may enable new routes for the therapy of periimplant disease
Nonperturbative versus perturbative effects in generalized parton distributions
Generalized parton distributions (GPDs) are studied at the hadronic
(nonperturbative) scale within different assumptions based on a relativistic
constituent quark model. In particular, by means of a meson-cloud model we
investigate the role of nonperturbative antiquark degrees of freedom and the
valence quark contribution. A QCD evolution of the obtained GPDs is used to add
perturbative effects and to investigate the GPDs' sensitivity to the
nonperturbative ingredients of the calculation at larger (experimental) scale.Comment: 17 pages, 10 figures; submitted to Phys. Rev.
Critical behaviour and scaling functions of the three-dimensional O(6) model
We numerically investigate the three-dimensional O(6) model on 12^3 to 120^3
lattices within the critical region at zero magnetic field, as well as at
finite magnetic field on the critical isotherm and for several fixed couplings
in the broken and the symmetric phase. We obtain from the Binder cumulant at
vanishing magnetic field the critical coupling J_c=1.42865(3). The universal
value of the Binder cumulant at this point is g_r(J_c)=-1.94456(10). At the
critical coupling, the critical exponents \gamma=1.604(6), \beta=0.425(2) and
\nu=0.818(5) are determined from a finite-size-scaling analysis. Furthermore,
we verify predicted effects induced by massless Goldstone modes in the broken
phase. The results are well described by the perturbative form of the model's
equation of state. Our O(6)-result is compared to the corresponding Ising, O(2)
and O(4) scaling functions. Finally, we study the finite-size-scaling behaviour
of the magnetisation on the pseudocritical line.Comment: 13 pages, 20 figures, REVTEX, fixed an error in the determination of
R_\chi and changed the corresponding line in figure 13
Hadron Structure Functions in a Chiral Quark Model: Regularization, Scaling and Sum Rules
We provide a consistent regularization procedure for calculating hadron
structure functions in a chiral quark model. The structure functions are
extracted from the absorptive part of the forward Compton amplitude in the
Bjorken limit. Since this amplitude is obtained as a time-ordered correlation
function its regularization is consistently determined from the regularization
of the bosonized action. We find that the Pauli-Villars regularization scheme
is most suitable because it preserves both the anomaly structure of QCD and the
leading scaling behavior of hadron structure functions in the Bjorken limit. We
show that this procedure yields the correct pion structure function. In order
to render the sum rules of the regularized polarized nucleon structure
functions consistent with their corresponding axial charges we find it
mandatory to further specify the regularization procedure. This specification
goes beyond the double subtraction scheme commonly employed when studying
static hadron properties in this model. In particular the present approach
serves to determine the regularization prescription for structure functions
whose leading moments are not given by matrix elements of local operators. In
this regard we conclude somewhat surprisingly that in this model the Gottfried
sum rule does not undergo regularization.Comment: 42 pages LaTex, 5 figures included via epsfi
Flux Compactifications: Stability and Implications for Cosmology
We study the dynamics of the size of an extra-dimensional manifold stabilised
by fluxes. Inspecting the potential for the 4D field associated with this size
(the radion), we obtain the conditions under which it can be stabilised and
show that stable compactifications on hyperbolic manifolds necessarily have a
negative four-dimensional cosmological constant, in contradiction with
experimental observations. Assuming compactification on a positively curved
(spherical) manifold we find that the radion has a mass of the order of the
compactification scale, M_c, and Planck suppressed couplings. We also show that
the model becomes unstable and the extra dimensions decompactify when the
four-dimensional curvature is higher than a maximum value. This in particular
sets an upper bound on the scale of inflation in these models: V_max \sim M_c^2
M_P^2, independently of whether the radion or other field is responsible for
inflation. We comment on other possible contributions to the radion potential
as well as finite temperature effects and their impact on the bounds obtained.Comment: 16 pages, 1 figure, LaTeX; v2: typos fixed and references adde
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