452,407 research outputs found
Proton strange form factors and SAMPLE experiments
We study the chiral models such as the Skyrmion and chiral bag to investigate
the baryon strange form factors associated with the SAMPLE experiments.Comment: 3 page
Emission of Axions in strongly magnetized star
We show that the axion decay constant does not get any correction at any
order by external magnetic fields. On the other hand, in the context of the
Wilsonian effective action under external magnetic fields, the axial currents
get a finite correction. We then calculate the effect of strong magnetic fields
on the axion-nucleon coupling and find that if in strongly magnetized neutron and white dwarf stars, the emission
rate of axions is enhanced by several orders of magnitude.Comment: 11 pages, RevTeX, 4 Postscript figures, uses epsf.st
Alternating direction method of multipliers for penalized zero-variance discriminant analysis
We consider the task of classification in the high dimensional setting where
the number of features of the given data is significantly greater than the
number of observations. To accomplish this task, we propose a heuristic, called
sparse zero-variance discriminant analysis (SZVD), for simultaneously
performing linear discriminant analysis and feature selection on high
dimensional data. This method combines classical zero-variance discriminant
analysis, where discriminant vectors are identified in the null space of the
sample within-class covariance matrix, with penalization applied to induce
sparse structures in the resulting vectors. To approximately solve the
resulting nonconvex problem, we develop a simple algorithm based on the
alternating direction method of multipliers. Further, we show that this
algorithm is applicable to a larger class of penalized generalized eigenvalue
problems, including a particular relaxation of the sparse principal component
analysis problem. Finally, we establish theoretical guarantees for convergence
of our algorithm to stationary points of the original nonconvex problem, and
empirically demonstrate the effectiveness of our heuristic for classifying
simulated data and data drawn from applications in time-series classification
Monte-Carlo Simulations of Spin-Crossover Phenomena Based on a Vibronic Ising-like Model with Realistic Parameters
Materials with spin-crossover (SCO) properties hold great potentials in
information storage and therefore have received a lot of concerns in the recent
decades. The hysteresis phenomena accompanying SCO is attributed to the
intermolecular cooperativity whose underlying mechanism may have a vibronic
origin. In this work, a new vibronic Ising-like model in which the elastic
coupling between SCO centers is included by considering harmonic stretching and
bending (SAB) interactions is proposed and solved by Monte Carlo simulations.
The key parameters in the new model, and , corresponding to the
elastic constant of the stretching and bending mode, respectively, can be
directly related to the macroscopic bulk and shear modulus of the material in
study, which can be readily estimated either based on experimental measurements
or first-principles calculations. The convergence issue in the MC simulations
of the thermal hysteresis has been carefully checked, and it was found that the
stable hysteresis loop can be more readily obtained when using the SAB model
compared to that using the Wajnflasz-Pick model. Using realistic parameters
estimated based on first-principles calculations of a specific polymeric
coordination SCO compound, [Fe(pz)Pt(CN)]2HO,
temperature-induced hysteresis and pressure effects on SCO phenomena are
simulated successfully.Comment: 8 pages, 8 figure
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