318 research outputs found
Differential cross sections for single ionization of Li in collisions with fast protons and O ions
We study the process of single ionization of Li in collisions with H and
O projectile ions at 6 MeV and 1.5-MeV/amu impact energies,
respectively. Using the frameworks of the independent-electron model and the
impact parameter picture, fully (FDCS) and doubly (DDCS) differential cross
sections are evaluated in the continuum distorted-wave with eikonal
initial-state approximation. Comparisons are made with the recent measurements
of LaForge \textit{et al} [J. Phys. B \textbf{46} 031001 (2013)] for the DDCS
and Hubele \textit{et al} [Phys. Rev. Lett. \textbf{110} 133201 (2013)] for the
FDCS, respectively. For O impact inclusion of the heavy particle (NN)
interaction in the calculations is crucial and effects of polarization due to
the presence of the projectile ion have also to be taken into account for
getting very good agreement with the measured data. Our calculation reproduces
the satellite peak structure seen in the FDCS for the Li(2s) measurement, which
we explain as being formed by a combination of the binary and NN interactions
Lattice QCD at non-vanishing density: phase diagram, equation of state
We propose a method to study lattice QCD at non-vanishing temperature (T) and
chemical potential (\mu). We use n_f=2+1 dynamical staggered quarks with
semi-realistic masses on L_t=4 lattices. The critical endpoint (E) of QCD on
the Re(\mu)-T plane is located. We calculate the pressure (p), the energy
density (\epsilon) and the baryon density (n_B) of QCD at non-vanishing T and
\mu.Comment: Contributed to Workshop on Strong and Electroweak Matter (SEWM 2002),
Heidelberg, Germany, 2-5 Oct 200
The QCD equation of state at finite T/\mu on the lattice
We present N_t=4 lattice results for the equation of state of 2+1 flavour
staggered, dynamical QCD at finite temperature and chemical potential. We use
the overlap improving multi-parameter reweighting technique to extend the
equation of state for non-vanishing chemical potentials. The results are
obtained along the line of constant physics. Our physical parameters extend in
temperature and baryon chemical potential upto \approx 500-600 MeV.Comment: 13 pages 9 figures, talk given at Finite Density QCD at Nara, Nara,
Japan, 10-12 July 200
Topology with Dynamical Overlap Fermions
We perform dynamical QCD simulations with overlap fermions by hybrid
Monte-Carlo method on to lattices. We study the problem of
topological sector changing. A new method is proposed which works without
topological sector changes. We use this new method to determine the topological
susceptibility at various quark masses.Comment: 15 pages, 3 figure
A path-deformation framework for determining weighted genome rearrangement distance
Measuring the distance between two bacterial genomes under the inversion process is usually done by assuming all inversions to occur with equal probability. Recently, an approach to calculating inversion distance using group theory was introduced, and is effective for the model in which only very short inversions occur. In this paper, we show how to use the group-theoretic framework to establish minimal distance for any weighting on the set of inversions, generalizing previous approaches. To do this we use the theory of rewriting systems for groups, and exploit the Knuth--Bendix algorithm, the first time this theory has been introduced into genome rearrangement problems. The central idea of the approach is to use existing group theoretic methods to find an initial path between two genomes in genome space (for instance using only short inversions), and then to deform this path to optimality using a confluent system of rewriting rules generated by the Knuth--Bendix algorithm
Real-time optical micro-manipulation using optimized holograms generated on the GPU
Holographic optical tweezers allow the three dimensional, dynamic, multipoint
manipulation of micron sized dielectric objects. Exploiting the massive
parallel architecture of modern GPUs we can generate highly optimized holograms
at video frame rate allowing the interactive micro-manipulation of 3D
structures.Comment: 13 pages, 8 figure
Adverse effect of two-spotted spider mite (Tetranychus urticae Koch) on soybean protein composition
Damage induced on soybean by Tetranychus urticae Koch (Acari: Tetranychidae) is easily recognizable. We were curious to know whether, in addition to this visual and quantitative damage, change occurs also in the nutritional value of the harvested product.
The Weendei analysis showed that as compared to the healthy items, the protein content (P=0.048) of the miteinjured seeds as well as their composition (P=0.048) has changed. No significant changes in the raw fat content could be confirmed by the statistical results of the study (P=0.643). Concerning the contents of raw ash (P=0.069) and raw fibre (P=0.859), there were no significant differences.
Three distinct changes in protein structure were confirmed by gel electrophoresis. Substantially less 69 kDa protein was detectable in the infested soybean, whereas no 48 kDa protein was present in the control sample; it only appeared in the infested ones. There was a higher amount of 30 kDa protein in the infested stock. In summary, alteration in the protein structure was caused by T. urticae, and changes were triggered in the protein content of the affected soybean plants. The protein structure-change in damaged soybean items caused further decline in the feed consuming capacity of farm animals
- …