488 research outputs found
Noether's theorem and gauge transformations. Application to the bosonic string and CP(2,n-1) model
New results on the theory of constrained systems are applied to characterize the generators of Noethers symmetry transformations. As a byproduct, an algorithm to construct gauge transformations in Hamiltonian formalism is derived. This is illustrated with two relevant examples
Dynamical Hartree-Fock-Bogoliubov Theory of Vortices in Bose-Einstein Condensates at Finite Temperature
We present a method utilizing the continuity equation for the condensate
density to make predictions of the precessional frequency of single off-axis
vortices and of vortex arrays in Bose-Einstein condensates at finite
temperature. We also present an orthogonalized Hartree-Fock-Bogoliubov (HFB)
formalism. We solve the continuity equation for the condensate density
self-consistently with the orthogonalized HFB equations, and find stationary
solutions in the frame rotating at this frequency. As an example of the utility
of this formalism we obtain time-independent solutions for
quasi-two-dimensional rotating systems in the co-rotating frame. We compare
these results with time-dependent predictions where we simulate stirring of the
condensate.Comment: 13 pages, 11 figures, 1 tabl
An introduction to the spectrum, symmetries, and dynamics of spin-1/2 Heisenberg chains
Quantum spin chains are prototype quantum many-body systems. They are
employed in the description of various complex physical phenomena. The goal of
this paper is to provide an introduction to the subject by focusing on the time
evolution of a Heisenberg spin-1/2 chain and interpreting the results based on
the analysis of the eigenvalues, eigenstates, and symmetries of the system. We
make available online all computer codes used to obtain our data.Comment: 8 pages, 3 figure
Lorenz integrable system moves \`a la Poinsot
A transformation is derived which takes Lorenz integrable system into the
well-known Euler equations of a free-torque rigid body with a fixed point, i.e.
the famous motion \`a la Poinsot. The proof is based on Lie group analysis
applied to two third order ordinary differential equations admitting the same
two-dimensional Lie symmetry algebra. Lie's classification of two-dimensional
symmetry algebra in the plane is used. If the same transformation is applied to
Lorenz system with any value of parameters, then one obtains Euler equations of
a rigid body with a fixed point subjected to a torsion depending on time and
angular velocity. The numerical solution of this system yields a
three-dimensional picture which looks like a "tornado" whose cross-section has
a butterfly-shape. Thus, Lorenz's {\em butterfly} has been transformed into a
{\em tornado}.Comment: 14 pages, 6 figure
Symmetries of the Energy-Momentum Tensor: Some Basic Facts
It has been pointed by Hall et al. [1] that matter collinations can be
defined by using three different methods. But there arises the question of
whether one studies matter collineations by using the ,
or or . These alternative
conditions are, of course, not generally equivalent. This problem has been
explored by applying these three definitions to general static spherically
symmetric spacetimes. We compare the results with each definition.Comment: 17 pages, accepted for publication in "Communications in Theoretical
Physics
Nonlinear physics of the ionosphere and LOIS/LOFAR
The ionosphere is the only large-scale plasma laboratory without walls that
we have direct access to. From results obtained in systematic, repeatable
experiments in this natural laboratory, where we can vary the stimulus and
observe its response in a controlled, repeatable manner, we can draw
conclusions on similar physical processes occurring naturally in the Earth's
plasma environment as well as in parts of the plasma universe that are not
easily accessible to direct probing.
Of particular interest is electromagnetic turbulence excited in the
ionosphere by beams of particles (photons, electrons) and its manifestation in
terms of secondary radiation (electrostatic and electromagnetic waves),
structure formation (solitons, cavitons, alfveons, striations), and the
associated exchange of energy, linear momentum, and angular momentum.
We present a new diagnostic technique, based on vector radio allowing the
utilization of EM angular momentum (vorticity), to study plasma turbulence
remotely.Comment: Six pages, two figures. To appear in Plasma Physics and Controlled
Fusio
Confidence Intervals for the Area Under the Receiver Operating Characteristic Curve in the Presence of Ignorable Missing Data
Receiver operating characteristic curves are widely used as a measure of accuracy of diagnostic tests and can be summarised using the area under the receiver operating characteristic curve (AUC). Often, it is useful to construct a confidence interval for the AUC; however, because there are a number of different proposed methods to measure variance of the AUC, there are thus many different resulting methods for constructing these intervals. In this article, we compare different methods of constructing Wald‐type confidence interval in the presence of missing data where the missingness mechanism is ignorable. We find that constructing confidence intervals using multiple imputation based on logistic regression gives the most robust coverage probability and the choice of confidence interval method is less important. However, when missingness rate is less severe (e.g. less than 70%), we recommend using Newcombe\u27s Wald method for constructing confidence intervals along with multiple imputation using predictive mean matching
On the classical central charge
In the canonical formulation of a classical field theory, symmetry properties
are encoded in the Poisson bracket algebra, which may have a central term.
Starting from this well understood canonical structure, we derive the related
Lagrangian form of the central term.Comment: 23 pages, RevTeX, no figures; introduction improved, a few references
adde
On the generalized Davenport constant and the Noether number
Known results on the generalized Davenport constant related to zero-sum
sequences over a finite abelian group are extended to the generalized Noether
number related to the rings of polynomial invariants of an arbitrary finite
group. An improved general upper bound is given on the degrees of polynomial
invariants of a non-cyclic finite group which cut out the zero vector.Comment: 14 page
Duality between integrable Stackel systems
For the Stackel family of the integrable systems a non-canonical
transformation of the time variable is considered. This transformation may be
associated to the ambiguity of the Abel map on the corresponding hyperelliptic
curve. For some Stackel's systems with two degrees of freedom the 2x2 Lax
representations and the dynamical r-matrix algebras are constructed. As an
examples the Henon-Heiles systems, integrable Holt potentials and the
integrable deformations of the Kepler problem are discussed in detail.Comment: LaTeX2e, 18 page
- …