From: LARRY KLAES (ljk4_at_msn.com)
Date: Mon Dec 26 2005 - 11:06:37 PST
Paper: astro-ph/0512585
Date: Fri, 23 Dec 2005 03:51:01 GMT (223kb)
Title: Birth and Evolution of Isolated Radio Pulsars
Authors: C.-A. Faucher-Giguere (1, 2) and V. M. Kaspi (1) ((1) McGill
University, (2) Harvard-Smithsonian Center for Astrophysics)
Comments: 73 preprint pages, including 8 tables and 15 figures. ApJ submission
revised following the referee's comments
\\
We investigate the birth and evolution of Galactic isolated radio pulsars. We
begin by estimating their birth space velocity distribution from proper motion
measurements of Brisken et al. (2002, 2003). We find no evidence for
multimodality of the distribution and favor one in which the absolute
one-dimensional velocity components are exponentially distributed and with a
three-dimensional mean velocity of 380^{+40}_{-60} km s^-1. We then proceed
with a Monte Carlo-based population synthesis, modelling the birth properties
of the pulsars, their time evolution, and their detection in the Parkes and
Swinburne Multibeam surveys. We present a population model that appears
generally consistent with the observations. Our results suggest that pulsars
are born in the spiral arms, with a Galactocentric radial distribution that is
well described by the functional form proposed by Yusifov & Kucuk (2004), in
which the pulsar surface density peaks at radius ~3 kpc. The birth spin period
distribution extends to several hundred milliseconds, with no evidence of
multimodality. Models which assume the radio luminosities of pulsars to be
independent of the spin periods and period derivatives are inadequate, as they
lead to the detection of too many old simulated pulsars in our simulations.
Dithered radio luminosities proportional to the square root of the spin-down
luminosity accommodate the observations well and provide a natural mechanism
for the pulsars to dim uniformly as they approach the death line, avoiding an
observed pile-up on the latter. There is no evidence for significant torque
decay (due to magnetic field decay or otherwise) over the lifetime of the
pulsars as radio sources (~100 Myr). Finally, we estimate the pulsar birthrate
and total number of pulsars in the Galaxy.
\\ ( http://arXiv.org/abs/astro-ph/0512585 , 223kb)
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