3,306 research outputs found
Mechanics of couple-stress fluid coatings
The formal development of a theory of viscoelastic surface fluids with bending resistance - their kinematics, dynamics, and rheology are discussed. It is relevant to the mechanics of fluid drops and jets coated by a thin layer of immiscible fluid with rather general rheology. This approach unifies the hydrodynamics of two-dimensional fluids with the mechanics of an elastic shell in the spirit of a Cosserat continuum. There are three distinct facets to the formulation of surface continuum mechanics. Outlined are the important ideas and results associated with each: the kinematics of evolving surface geometries, the conservation laws governing the mechanics of surface continua, and the rheological equations of state governing the surface stress and moment tensors
Ultra-high-energy cosmic ray acceleration by relativistic blast waves
We consider the acceleration of charged particles at the ultra-relativistic
shocks, with Lorentz factors \Gamma_s >> 1 relative to the upstream medium,
arising in relativistic fireball models of gamma-ray bursts (GRBs). We show
that for Fermi-type shock acceleration, particles initially isotropic in the
upstream medium can gain a factor of order \Gamma_s^2 in energy in the first
shock crossing cycle, but that the energy gain factor for subsequent shock
crossing cycles is only of order 2, because for realistic deflection processes
particles do not have time to re-isotropise upstream before recrossing the
shock.
We evaluate the maximum energy attainable and the efficiency of this process,
and show that for a GRB fireball expanding into a typical interstellar medium,
these exclude the production of ultra-high-energy cosmic rays (UHECRs), with
energies in the range 10^{18.5} - 10^{20.5} eV, by the blast wave. We propose,
however, that in the context of neutron star binaries as the progenitors of
GRBs, relativistic ions from the pulsar wind bubbles produced by these systems
could be accelerated by the blast wave. We show that if the known binary
pulsars are typical, the maximum energy, efficiency, and spectrum in this case
can account for the observed population of UHECRs.Comment: Accepted for MNRAS (Letters), with minor revisions. LaTeX, 5 pages,
uses mn.st
Mutation and selection in a large population
In this paper we study a large, but finite population, in which mutation and selection occur at a single genetic locus in a diploid organism. We provide theoretical results for the equilibrium allele frequencies, their variances and covariances and their equilibrium distribution, when the population size is larger than the reciprocal of the mean mutation rate. [[We are also able to infer that the equilibrium distribution of allele frequencies takes the form of a constrained multivariate Gaussian distribution.]] Our results provide a rapid way of obtaining useful information in the case of complex mutation and selection schemes when the population size is large. We present numerical simulations to test the applicability of our theoretical formulations. The results of these simulations are in very reasonable agreement with the theoretical predictions
Henri Temianka Correspondence; (hwaxman)
This collection contains material pertaining to the life, career, and activities of Henri Temianka, violin virtuoso, conductor, music teacher, and author. Materials include correspondence, concert programs and flyers, music scores, photographs, and books.https://digitalcommons.chapman.edu/temianka_correspondence/2980/thumbnail.jp
Henri Temianka Correspondence; (hwaxman)
This collection contains material pertaining to the life, career, and activities of Henri Temianka, violin virtuoso, conductor, music teacher, and author. Materials include correspondence, concert programs and flyers, music scores, photographs, and books.https://digitalcommons.chapman.edu/temianka_correspondence/2981/thumbnail.jp
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