92,146 research outputs found
Moving grid method without interpolations
In their method, to solve a one—dimensional moving boundary problem, Crank and Gupta suggest a grid system which moves with the Interface. The method requires some interpolations to be carried out which they perform by using a cubic spline or an ordinary polynomial. In the present paper these interpolations are avoided by employing a Taylor's expansion in space and time dimensions. A practical diffusion problem is solved and the results are compared with those obtained from other methods
Observations of Dissipation of Slow Magneto-acoustic Waves in a Polar Coronal Hole
We focus on a polar coronal hole region to find any evidence of dissipation
of propagating slow magneto-acoustic waves. We obtained time-distance and
frequency-distance maps along the plume structure in a polar coronal hole. We
also obtained Fourier power maps of the polar coronal hole in different
frequency ranges in 171~\AA\ and 193~\AA\ passbands. We performed intensity
distribution statistics in time domain at several locations in the polar
coronal hole. We find the presence of propagating slow magneto-acoustic waves
having temperature dependent propagation speeds. The wavelet analysis and
Fourier power maps of the polar coronal hole show that low-frequency waves are
travelling longer distances (longer detection length) as compared to
high-frequency waves. We found two distinct dissipation length scales of wave
amplitude decay at two different height ranges (between 0--10 Mm and 10--70 Mm)
along the observed plume structure. The dissipation lengths obtained at higher
height range show some frequency dependence. Individual Fourier power spectrum
at several locations show a power-law distribution with frequency whereas
probability density function (PDF) of intensity fluctuations in time show
nearly Gaussian distributions. Propagating slow magneto-acoustic waves are
getting heavily damped (small dissipation lengths) within the first 10~Mm
distance. Beyond that waves are getting damped slowly with height. Frequency
dependent dissipation lengths of wave propagation at higher heights may
indicate the possibility of wave dissipation due to thermal conduction,
however, the contribution from other dissipative parameters cannot be ruled
out. Power-law distributed power spectra were also found at lower heights in
the solar corona, which may provide viable information on the generation of
longer period waves in the solar atmosphere.Comment: corrected typos and grammar, In press A&
Barrier modification in sub-barrier fusion reactions using Wong formula with Skyrme forces in semiclassical formalism
We obtain the nuclear proximity potential by using semiclassical extended
Thomas Fermi (ETF) approach in Skyrme energy density formalism (SEDF), and use
it in the extended -summed Wong formula under frozen density
approximation. This method has the advantage of allowing the use of different
Skyrme forces, giving different barriers. Thus, for a given reaction, we could
choose a Skyrme force with proper barrier characteristics, not-requiring extra
``barrier lowering" or ``barrier narrowing" for a best fit to data. For the
Ni+Mo reaction, the -summed Wong formula, with effects of
deformations and orientations of nuclei included, fits the fusion-evaporation
cross section data exactly for the force GSkI, requiring additional barrier
modifications for forces SIII and SV. However, the same for other similar
reactions, like Ni+Ni, fits the data best for SIII force.
Hence, the barrier modification effects in -summed Wong expression
depends on the choice of Skyrme force in extended ETF method.Comment: INPC2010, Vancouver, CANAD
Weighted Density Approximation Description of Insulating YH and LaH
Density functional calculations within the weighted density approximation
(WDA) are presented for YH and LaH. We investigate some commonly used
pair-distribution functions G. These calculations show that within a consistent
density functional framework a substantial insulating gap can be obtained while
at the same time retaining structural properties in accord with experimental
data. Our WDA band structures agree with those of approximation very well,
but the calculated band gaps are still 1.0-2.0 eV smaller than experimental
findings.Comment: 6 Pages, 3 figure
Shell closure effects studied via cluster decay in heavy nuclei
The effects of shell closure in nuclei via the cluster decay is studied. In
this context, we have made use of the Preformed Cluster Model () of Gupta
and collaborators based on the Quantum Mechanical Fragmentation Theory. The key
point in the cluster radioactivity is that it involves the interplay of close
shell effects of parent and daughter. Small half life for a parent indicates
shell stabilized daughter and long half life indicates the stability of the
parent against the decay. In the cluster decay of trans lead nuclei observed so
far, the end product is doubly magic lead or its neighbors. With this in our
mind we have extended the idea of cluster radioactivity. We investigated decay
of different nuclei where Zirconium is always taken as a daughter nucleus,
which is very well known deformed nucleus. The branching ratio of cluster decay
and -decay is also studied for various nuclei, leading to magic or
almost doubly magic daughter nuclei. The calculated cluster decay half-life are
in well agreement with the observed data. First time a possibility of cluster
decay in nucleus is predicted
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