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A peridynamic theory for linear elastic shells
A state-based peridynamic formulation for linear elastic shells is presented.
The emphasis is on introducing, possibly for the first time, a general surface
based peridynamic model to represent the deformation characteristics of
structures that have one physical dimension much smaller than the other two. A
new notion of curved bonds is exploited to cater for force transfer between the
peridynamic particles describing the shell. Starting with the three dimensional
force and deformation states, appropriate surface based force, moment and
several deformation states are arrived at. Upon application on the curved
bonds, such states beget the necessary force and deformation vectors governing
the motion of the shell. Correctness of our proposal on the peridynamic shell
theory is numerically assessed against static deformation of spherical and
cylindrical shells and flat plates
Ground and excited states of Li, Be through a density-based approach
Density functional calculations are performed for ground [He]2s
S, and three metastable bound excited states, 1s2s2p P,
1s2p S, 1s2s2p3p P of Li and [He]2s2p P,
[He]2p S, 1s2s2p S of Be each. The
work-function-based exchange potential is used, while the correlation effects
are included by employing the Lee-Yang-Parr potential. The relevant
nonrelativistic KS equation is solved by means of a generalized pseudospectral
discretization scheme offering nonuniform and optimal spatial grid. Computed
total energies, radial densities, selected density moments, as well as two
transition wavelengths (1s2s2p P1s2p S of Li,
[He]2s2p P [He]2p S of Be) show reasonably good
agreement with the available theoretical and experimental data. The term
energies show an absolute deviation of 0.007--0.171% with the largest deviation
being observed for the even-parity P state of Li. The transition
wavelengths of Li, Be are calculated within 0.891 and 0.438% of the
experimental values. This offers a simple practical route towards accurate
reliable calculation of excited states of anions within density functional
theory.Comment: 12 pages, 35 ref
Time dependent nonclassical properties of even and odd nonlinear coherent states
We construct even and odd nonlinear coherent states of a parametric
oscillator and examine their nonclassical properties.It has been shown that
these superpositions exhibit squeezing and photon antibunching which change
with time.Comment: 3 eps figure
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