Probing polyelectrolyte elasticity using radial distribution function.
Phys Rev E Stat Nonlin Soft Matter Phys 67:2 Pt 1 (2003) 021803
Abstract:
We study the effect of electrostatic interactions on the distribution function of the end-to-end distance of a single polyelectrolyte chain in the rodlike limit. The extent to which the radial distribution function of a polyelectrolyte is reproduced by that of a wormlike chain with an adjusted persistence length is investigated. Strong evidence is found for a universal scaling formula connecting the effective persistence length of a polyelectrolyte with its linear charge density and the Debye screening of its self-interaction. An alternative definition of the electrostatic persistence length is proposed based on matching of the maximum of the distribution with that of an effective wormlike chain, as opposed to the traditional matching of the first or the second moments of the distributions. It is shown that this definition provides a more accurate probe of the affinity of the distribution to that of the wormlike chains, as compared to the traditional definition. It is also found that the length of a polyelectrolyte segment can act as a crucial parameter in determining its elastic properties.BPS and non-BPS states in a supersymmetric Landau-Ginzburg theory
Journal of High Energy Physics Springer Nature 2003:01 (2003) 053
Coexistence of Composite-Bosons and Composite-Fermions in nu=1/2 + 1/2 Quantum Hall Bilayers
(2003)
Monte Carlo evaluation of non-abelian statistics
Physical Review Letters 90:1 (2003)
Abstract:
A numerical method was formulated to study braiding statistics of FQH excitations. The method was applied to perform the first direct calculation of the non-Abelian statistics in the MR state. Results confirm previous data drawn within the CFT framework.A model to calculate the capacity distribution of correlated MIMO channels and interferers
Institute of Electrical and Electronics Engineers (IEEE) 4 (2003) 1791-1796