4,072 research outputs found
Binding energy constraint on matter radius and soft dipole excitations of C-22
An unusually large value of the C-22 matter radius has recently been extracted from measured reaction cross sections. The giant size can be explained by a very loose binding that is, however, not known experimentally yet. Within the three-body cluster model we have explored the sensitivity of the s-motion-dominated C-22 geometry to the two-neutron separation energy. A low energy of a few tens of keV is required to reach the alleged experimental lower value of the matter radius, while the experimental mean radius requires an extremely tiny binding. The dependence of the C-22 charge radius on the two-neutron separation energy is also presented. The soft dipole mode in C-22 is shown to be strongly affected by the loose binding and should be studied in the process of Coulomb fragmentation
Modified variable phase method for the solution of coupled radial Schrodinger equations
A modified variable phase method for the numerical solution of coupled radial Schrodinger equations, which maintains linear independence for different sets of solution vectors, is suggested. The modification involves rearrangement of coupled equations to avoid the usual numerical instabilities associated with components of the wave function in their classically forbidden regions. The modified method is applied to nuclear structure calculations of halo nuclei within the hyperspherical harmonics approach
Noiseless Collective Motion out of Noisy Chaos
We consider the effect of microscopic external noise on the collective motion
of a globally coupled map in fully desynchronized states. Without the external
noise a macroscopic variable shows high-dimensional chaos distinguishable from
random motion. With the increase of external noise intensity, the collective
motion is successively simplified. The number of effective degrees of freedom
in the collective motion is found to decrease as with the
external noise variance . It is shown how the microscopic noise can
suppress the number of degrees of freedom at a macroscopic level.Comment: 9 pages RevTex file and 4 postscript figure
Theory of transient spectroscopy of multiple quantum well structures
A theory of the transient spectroscopy of quantum well (QW) structures under
a large applied bias is presented. An analytical model of the initial part of
the transient current is proposed. The time constant of the transient current
depends not only on the emission rate from the QWs, as is usually assumed, but
also on the subsequent carrier transport across QWs. Numerical simulation was
used to confirm the validity of the proposed model, and to study the transient
current on a larger time scale. It is shown that the transient current is
influenced by the nonuniform distribution of the electric field and related
effects, which results in a step-like behavior of the current. A procedure of
extraction of the QW emission time from the transient spectroscopy experiments
is suggested.Comment: 5 pages, 4 figures, to be published in J. Appl. Phy
Detection of Giant Radio Pulses from the Pulsar PSR B0656+14
Giant pulses (GPs) have been detected from the pulsar PSR B0656+14. A pulse
that is more intense than the average pulse by a factor of 120 is encountered
approximately once in 3000 observed periods of the pulsar. The peak flux
density of the strongest pulse, 120 Jy, is a factor of 630 higher than that of
the average pulse. The GP energy exceeds the energy of the average pulse by up
to a factor of 110, which is comparable to that for other known pulsars with
GPs, including the Crab pulsar and the millisecond pulsar PSR B1937+21. The
giant pulses are a factor of 6 narrower than the average pulse and are
clustered at the head of the average pulse. PSR B0656+14 along with PSR
B0031-07, PSR B1112+50, and PSR J1752+2359 belong to a group of pulsars that
differ from previously known ones in which GPs have been detected without any
extremely strong magnetic field on the light cylinder.Comment: 10 pages, 3 figures, 1 table; originally published in Russian in
Pis'ma Astron. Zh., 2006, v.32, 650; translated by George Rudnitskii; the
English version will be appear in Astronomy Letter
POLITICAL MYTHS AND STEREOTYPES IN THE ETHNIC CONSCIOUSNESS OF THE CHUVASH PEOPLE
Theoretical and methodological basis of the study of political myths and stereotypes is studied, their role and influence on the modern life of the Chuvash Republic are analyzed. Classification of archetypes of the Chuvash people within the concept of C. G. Jung is given. The history and current state of political myths and stereotypes in the ethnic consciousness of the Chuvash people are studied. Interpretation of the state symbols of the Chuvash Republic is given. The different political interpretations of the past and present of the Chuvash Republic are examined
POLITICAL MYTHS AND STEREOTYPES IN THE ETHNIC CONSCIOUSNESS OF THE CHUVASH PEOPLE
Theoretical and methodological basis of the study of political myths and stereotypes is studied, their role and influence on the modern life of the Chuvash Republic are analyzed. Classification of archetypes of the Chuvash people within the concept of C. G. Jung is given. The history and current state of political myths and stereotypes in the ethnic consciousness of the Chuvash people are studied. Interpretation of the state symbols of the Chuvash Republic is given. The different political interpretations of the past and present of the Chuvash Republic are examined
Stable monopole and dyon solutions in the Einstein-Yang-Mills theory in asymptotically anti-de Sitter Space
A continuum of new monopole and dyon solutions in the Einstein-Yang-Mills
theory in asymptotically anti-de Sitter space are found. They are regular
everywhere and specified with their mass, and non-Abelian electric and magnetic
charges. A class of monopole solutions which have no node in non-Abelian
magnetic fields are shown to be stable against spherically symmetric linear
perturbations.Comment: 9 pages with 5 figures. Revised version. To appear in Phys Rev Let
Thermo-optic hysteresis with bound states in the continuum
We consider thermo-optic hysteresis in a silicon structure supporting bound
state in the continuum. Taking into account radiative heat transfer as a major
cooling mechanism we constructed a non-linear model describing the optical
response. It is shown that the thermo-optic hysteresis can be obtained with low
intensities of incident light at the red edge of the
visible under the critical coupling condition
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