985 research outputs found
On Artin's braid group and polyconvexity in the calculus of variations
Let Ī© ā 2 be a bounded Lipschitz domain and let
F : Ī© Ć 2Ć2
+
āā
be a CarathĆØodory integrand such that F (x, Ā·) is polyconvex for L2-a.e. x ā Ī©. Moreover assume that
F is bounded from below and satisfies the condition F (x, Ī¾) ā as det Ī¾ 0 for L2-a.e. x ā Ī©. The paper describes the effect of domain topology on the existence and multiplicity of strong local minimizers of the functional
[u] :=
Ī©
F (x,āu (x)) dx,
where the map u lies in the Sobolev space W1,p
id (Ī©,2) with p 2 and satisfies the pointwise condition
det āu (x) > 0 for L2-a.e. x ā Ī©. The question is settled by establishing that [Ā·] admits a set of strong
local minimizers on W1,p id (Ī©,2) that can be indexed by the group n ā n, the direct sum of Artinās pure braid group on n strings and n copies of the infinite cyclic group. The dependence on the domain topology is through the number of holes n in Ī© and the different mechanisms that give rise to such local minimizers are fully exploited by this particular representation
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On the existence and multiplicity of topologically twisting incompressible -harmonic maps and a structural H-condition
No description supplie
Self-synchronization of Kerr-nonlinear Optical Parametric Oscillators
We introduce a new, reduced nonlinear oscillator model governing the
spontaneous creation of sharp pulses in a damped, driven, cubic nonlinear
Schroedinger equation. The reduced model embodies the fundamental connection
between mode synchronization and spatiotemporal pulse formation. We identify
attracting solutions corresponding to stable cavity solitons and Turing
patterns. Viewed in the optical context, our results explain the recently
reported and steps in the phase spectrum of microresonator-based
optical frequency combs
Self-synchronization Phenomena in the Lugiato-Lefever Equation
The damped driven nonlinear Schr\"odinger equation (NLSE) has been used to
understand a range of physical phenomena in diverse systems. Studying this
equation in the context of optical hyper-parametric oscillators in
anomalous-dispersion dissipative cavities, where NLSE is usually referred to as
the Lugiato-Lefever equation (LLE), we are led to a new, reduced nonlinear
oscillator model which uncovers the essence of the spontaneous creation of
sharply peaked pulses in optical resonators. We identify attracting solutions
for this model which correspond to stable cavity solitons and Turing patterns,
and study their degree of stability. The reduced model embodies the fundamental
connection between mode synchronization and spatiotemporal pattern formation,
and represents a novel class of self-synchronization processes in which
coupling between nonlinear oscillators is governed by energy and momentum
conservation.Comment: This manuscript is published in Physical Review A. Copyright 2017 by
the American Physical Society. arXiv admin note: text overlap with
arXiv:1602.0852
Determination of helminth parasites in abdominal cavity of Alosa caspia (Eichwald, 1838) from the southeast part of the Caspian Sea
Alosa caspia (Eichwald, 1838) belongs to clupeidae family, is considered as one of the main fish in the southern coast of the Caspian Sea. The aim of the present study was to evaluate the helminthic parasite infections in abdominal cavity of A. caspia from southeastern part of the Caspian Sea. In this regard, 30 fish were caught from Bandar-Torkaman and transferred alive to the parasitological laboratory. Then parasites specimens were fixed and transferred to the National Museum of Parasitology, Faculty of Veterinary Medicine at University of Tehran for identification. A total of two parasite species including Anisakis simplex and Pronoprymna ventricosa were isolated from the fish. 100% of the fish were infected with at least one helminthic parasite species. Pronoprymna ventricosa has the highest infection prevalence rate and was isolated from pyloric caeca, intestine and stomach of 93.33% of the fish specimens. Anisakis simplex is found in abdominal cavity of 33.33 % of the studied fish. Intensity of A. simplex and P. ventricosa was calculated as 8.4Ā±5.31 and 91.4Ā±21.46, respectively. Based on the statistical analysis, there were no significant differences in total parasites burden, parasite prevalence and parasite intensity between male and female of the studied fish (P>0.05)
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Annular rearrangements, incompressible axi-symmetric whirls and L1-local minimisers of the distortion energy
In this paper we consider a variational problem consisting of an energy functional defined by the integral,
F[u, X] = 1/2ā«x |āu|Ā²/|u|Ā² dx,
and an associated mapping space, here, the space of incompressible Sobolev mappings of the symmetric annular domain X = {x ā R n : a < |x| < b}:
AĻ(X) = { u ā W1,2 (X, R n ) : det āu = 1 a.e. and u|āX ā” x } .
The goal is then two fold. Firstly to establish and highlight an unexpected difference in the symmetries of the extremiser and local minimisers of F over AĻ(X) in the two special cases n = 2 and n = 3. More specifically, that when n = 3, despite the inherent rotational symmetry in the problem, there are NO non-trivial rotationally symmetric critical points of F over AĻ(X), whereas in sharp contrast, when n = 2, not only that there is an infinitude of rotationally symmetric critical points of the energy but also there is an infinitude of local minimisers of F over AĻ(X) with respect to the LĀ¹ -metric. At the heart of this analysis is an investigation into the rich homotopy structure of the space of self-mappings of annuli. The second aim is to introduce and implement a novel symmetrisation technique in the planar case n = 2 for Sobolev mappings u in AĻ(X) that lowers the energy whilst keeping the homotopy class of u invariant. We finally generalise and extend some of these results to higher dimensions, in particular, we show that only in even dimensions do we have an infinitude of non-trivial rotationally symmetric critical points
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A formulation of the Jacobi coefficients clj(a,b)via Bell polynomials
The Jacobi polynomials ( , ) are deeply intertwined with the Laplacian on compact rank one symmetric spaces. They represent the spherical or zonal functions and as such constitute the main ingredients in describing the spectral measures and spectral projections associated with the Laplacian on these spaces. In this note we strengthen this connection by showing that a set of spectral and geometric quantities associated with Jacobi operator fully describe the Maclaurin coefficients associated with the heat and other related Schwartzian kernels and present an explicit formulation of these quantities using the Bell polynomials
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