293,705 research outputs found
Investigation of Scattering Property for An Anisotropic Dielectric Circular Cylinder
Utilizing the scales theory of electromagnetic theory, the anisotropic
dielectric material is reconstructed into an isotropic medium. The analytic
expressions of scattering field and the scattering breadth for an anisotropic
material cylinder are first presented. Their validities are checked
theoretically. The influences induced by the dielectric constant tensor etc. on
the scattering breadth are simulated. The results show that the scatterings
both in the forward direction and vertical direction to the incident direction
are strong. The dielectric constant in the polarizing direction has a biggish
effect on scattering field. The mechanism of results is presente
The continuum limit of perturbative coefficients calculated with a large field cutoff
We report MC calculations of perturbative coefficients for lattice scalar
field theory in dimensions 1, 2 and 3, where the large field contributions are
cutoff. This produces converging (instead of asymptotic) perturbative series.
We discuss the statistical errors and the lattice effects and show that
accurate calculations are possible even in a crossover region where no
approximation works. We show that the field cutoff is also a UV regulator. We
point out the relevance for QCD questions discussed by Tomboulis and Trottier
at this conference.Comment: 3 pages, 4 figs., Lattice2003(theory
Universal Crossover in Perturbation Theory with a Large Field Cutoff
For lambda phi^4 models, the introduction of a large field cutoff improves
significantly the accuracy that can be reached with perturbative series but the
calculation of the modified coefficients remains a challenging problem. We show
that this problem can be solved numerically, and in the limits of large and
small field cutoffs, for the ground state energy of the anharmonic oscillator.
For the two lowest orders, the approximate formulas obtained in the large field
cutoff limit extend unexpectedly far in the low field cutoff region. For the
higher orders, the transition between the small field cutoff regime and the
large field cutoff regime can be described in terms of a universal function.Comment: 6 pages, 4 figures, uses iopar
Large Field Cutoffs in Lattice Gauge Theory
In pure gauge SU(3) near beta = 6, weak and strong coupling expansions break
down and the MC method seems to be the only practical alternative. We discuss
the possibility of using a modified version of perturbation theory which relies
on a large field cutoff and has been successfully applied to the double-well
potential (Y. M., PRL 88 141601). Generically, in the case of scalar field
theory, the weak coupling expansion is unable to reproduce the exponential
suppression of the large field configurations. This problem can be solved by
introducing a large field cutoff. The value of this cutoff can be chosen to
reduce the discrepancy with the original problem. This optimization can be
approximately performed using the strong coupling expansion and bridges the gap
between the two expansions. We report recent attempts to extend this procedure
for SU(3) gauge theory on the lattice. We compare gauge invariant and gauge
dependent (in the Landau gauge) criteria to sort the configurations into
``large-field'' and ``small-field'' configurations. %We discuss the effects of
discarding the large field configurations. We discuss the convergence of
lattice perturbation theory and the way it can be modified in order to obtain
results similar to the scalar case.Comment: 12 pages, 8 figures; talk presented by Y. Meurice at the Workshop on
QCD in Extreme Environments, Argonne National Laboratory, 29th June to 3rd
July, 2
A study of large field configurations in MC simulations
We discuss a new approach of scalar field theory where the small field
contributions are treated perturbatively and the large field configurations
(which are responsible for the asymptotic behavior of the perturbative series)
are neglected. In two Borel summable lambda phi ^4 problems improved
perturbative series can be obtained by this procedure. The modified series
converge towards values exponentially close to the exact ones. For lambda
larger than some critical value, the method outperforms Pade approximants and
Borel summations. The method can also be used for series which are not Borel
summable such as the double-well potential series and provide a perturbative
approach of the instanton contribution. Semi-classical methods can be used to
calculate the modified Feynman rules, estimate the error and optimize the field
cutoff. We discuss Monte Carlo simulations in one and two dimensions which
support the hypothesis of dilution of large field configurations used in these
semi-classical calculations. We show that Monte Carlo methods can be used to
calculate the modified perturbative series.Comment: 3 pages, lattice2002(spin
A Tractable Example of Perturbation Theory with a Field Cutoff: the Anharmonic Oscillator
For lambda phi^4 models, the introduction of a large field cutoff improves
significantly the accuracy that can be reached with perturbative series but the
calculation of the modified coefficients remains a challenging problem. We show
that this problem can be solved numerically, and analytically in the limits of
large and small field cutoffs, for the ground state energy of the anharmonic
oscillator. For the two lowest orders in lambda, the approximate formulas
obtained in the large field cutoff limit extend unexpectedly far in the low
field cutoff region and there is a significant overlap with the small field
cutoff approximation. For the higher orders, this is not the case, however the
shape of the transition between the small field cutoff regime and the large
field cutoff regime is approximately order independent.Comment: 16 pages, 9 figs., uses iopart.cl
Observation of flux tube crossings in the solar wind
Current sheets are ubiquitous in the solar wind.They are a major source of
the solar wind MHD turbulence intermittency. They may result from non-linear
interactions of the solar wind MHD turbulence or are the boundaries of flux
tubes that originate from the solar surface. Some current sheets appear in
pairs and are the boundaries of transient structures such as magnetic holes and
reconnection exhausts, or the edges of pulsed Alfv\'{e}n waves. For an
individual current sheet, discerning whether it is a flux tube boundary or due
to non-linear interactions, or the boundary of a transient structure is
difficult. In this work, using data from the {\sl Wind} spacecraft, we identify
two three-current-sheet events. Detailed examination of these two events
suggest that they are best explained by the flux tube crossing scenario. Our
study provides a convincing evidence supporting the scenario that the solar
wind consists of flux tubes where distinct plasmas reside.Comment: 5 figure
Research of Mechanical Properties of Ni-Ti-Nb Alloyson Low Temperature and Restriction Behavior
Mechanical Properties of Ni-Ti-Nb alloys with these conditions of
cold-drawing, non-vacuum heat treatment and vacuum heat treatment were measured
at low temperature, and Mechanical Properties of Ni47Ti44Nb9 alloys of
restricting recover was compared with the one of alloys of non-restricting
recover, and these rules of the mechanical performance between them was
analyzed. Experiment indicates that, mechanical Properties of vacuum heat
treatment's alloys was more excellent than the other two (non-vacuum heat
treatment and cold-drawing), and the stress curves of alloys of restricting
recover haven't the evident yield band, and the stress of alloys of restricting
recover was higher than the ones of alloys of non-restricting recover, but the
stress of alloys of restricting recover was lower than the ones of alloys of
non-restricting recover.Comment: e.g.: 5pages, 4 figures, conferenc
Bilinear forms on Green rings of finite dimensional Hopf algebras
In this paper, we study the Green ring and the stable Green ring of a Hopf
algebra by means of bilinear forms. We show that the Green ring of a Hopf
algebra of finite representation type is a Frobenius algebra over
with a dual basis associated to almost split sequences. On the stable Green
ring we define a new bilinear form which is more accurate to determine the
bi-Frobenius property of the stable Green ring. We show that the complexified
stable Green ring (or algebra) is a group-like algebra, and hence a
bi-Frobenius algebra, if the bilinear form on the stable Green ring is
non-degenerate.Comment: Section 4 and 5 revise
Structure and thermodynamic properties of a weakly-coupled antiferromagnetic spin-1/2 chain compound (C5H12N)CuBr3
Single crystals of a metal organic complex \ce{(C5H12N)CuBr3} (\ce{C5H12N} =
piperidinium, pipH for short) have been synthesized and the structure was
determined by single-crystal X-ray diffraction. \ce{(pipH)CuBr3} crystallizes
in the monoclinic group 2/. Edging-sharing \ce{CuBr5} units link to form
zigzag chains along the axis and the neighboring Cu(II) ions with spin-1/2
are bridged by bi-bromide ions. Magnetic susceptibility data down to 1.8 K can
be well fitted by the Bonner-Fisher formula for antiferromagnetic spin-1/2
chain, giving the intrachain magnetic coupling constant 17 K. At
zero field, \ce{(pipH)CuBr3} shows three-dimensional (3D) order below =
1.68 K. Calculated by the mean-field theory, the interchain coupling constant
= 0.65 K is obtained and the ordered magnetic moment is about 0.20
. This value of makes \ce{(pipH)CuBr3} a rare compound suitable to
study the dimensional crossover problem in magnetism, since both 3D order and
one-dimensional (1D) quantum fluctuations are prominent. In addition, specific
heat measurements reveal two successive magnetic transitions with lowering
temperature when external field 3 T is applied along the axis.
The - phase diagram of \ce{(pipH)CuBr3} is roughly constructed. The
interplay between exchange interactions, dimensionality, Zeeman energy and
possible Dzyaloshinkii-Moriya interaction should be the driving force for the
multiple phase transitions.Comment: 5 pages, 4 figure
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