P. Callin. (2006)cite arxiv:astro-ph/0606683
Comment: 18 pages, latex with revtex4, 16 postscript figures.
Abstract
We present a self-contained description of everything needed to write a
program that calculates the CMB power spectrum for the standard model of
cosmology (LCDM). This includes the equations used, assumptions and
approximations imposed on their solutions, and most importantly the algorithms
and programming tricks needed to make the code actually work. The resulting
program is compared to CMBFAST and typically agrees to within 0.1% - 0.4%. It
includes both helium, reionization, neutrinos and the polarization power
spectrum. The methods presented here could serve as a starting point for people
wanting to write their own CMB program from scratch, for instance to look at
more exotic cosmological models where CMBFAST or the other standard programs
can't be used directly.
%0 Journal Article
%1 Callin2006
%A Callin, Petter
%D 2006
%K CMB cosmology
%T How to calculate the CMB spectrum
%U http://arxiv.org/abs/astro-ph/0606683
%X We present a self-contained description of everything needed to write a
program that calculates the CMB power spectrum for the standard model of
cosmology (LCDM). This includes the equations used, assumptions and
approximations imposed on their solutions, and most importantly the algorithms
and programming tricks needed to make the code actually work. The resulting
program is compared to CMBFAST and typically agrees to within 0.1% - 0.4%. It
includes both helium, reionization, neutrinos and the polarization power
spectrum. The methods presented here could serve as a starting point for people
wanting to write their own CMB program from scratch, for instance to look at
more exotic cosmological models where CMBFAST or the other standard programs
can't be used directly.
@article{Callin2006,
abstract = { We present a self-contained description of everything needed to write a
program that calculates the CMB power spectrum for the standard model of
cosmology (LCDM). This includes the equations used, assumptions and
approximations imposed on their solutions, and most importantly the algorithms
and programming tricks needed to make the code actually work. The resulting
program is compared to CMBFAST and typically agrees to within 0.1% - 0.4%. It
includes both helium, reionization, neutrinos and the polarization power
spectrum. The methods presented here could serve as a starting point for people
wanting to write their own CMB program from scratch, for instance to look at
more exotic cosmological models where CMBFAST or the other standard programs
can't be used directly.
},
added-at = {2010-02-10T11:49:50.000+0100},
author = {Callin, Petter},
biburl = {https://www.bibsonomy.org/bibtex/2b0e869bcba1ee4abea5cfe89d3fa8857/jpschaar},
description = {How to calculate the CMB spectrum},
interhash = {241739df58e2c96f2106f72f916d698d},
intrahash = {b0e869bcba1ee4abea5cfe89d3fa8857},
keywords = {CMB cosmology},
note = {cite arxiv:astro-ph/0606683
Comment: 18 pages, latex with revtex4, 16 postscript figures},
timestamp = {2010-02-10T11:49:50.000+0100},
title = {How to calculate the CMB spectrum},
url = {http://arxiv.org/abs/astro-ph/0606683},
year = 2006
}