Adventures in Friedmann Cosmology: An Educationally Detailed Expansion
of the Cosmological Friedmann Equations
R. Nemiroff, и B. Patla. (2007)cite arxiv:astro-ph/0703739Comment: 32 pages, 4 tables; modified version accepted for publication in the American Journal of Physics.
DOI: 10.1119/1.2830536
Аннотация
The general relativistic cosmological Friedmann equations which describe how
the scale factor of the universe evolves are expanded explicitly to include
energy forms not usually seen. The evolution of the universe as predicted by
the Friedmann equations when dominated by a single, isotropic, stable, static,
perfect-fluid energy form is discussed for different values of its
gravitational pressure to density ratio $w$. These energy forms include phantom
energy ($w<-1$), cosmological constant ($w=-1$), domain walls ($w = -2/3$),
cosmic strings ($w = -1/3$), normal matter ($w = 0$), radiation and
relativistic matter ($w = 1/3$), and a previously little-discussed form of
energy called ültralight" ($w>1/3$). A brief history and possible futures of
Friedmann universes dominated by a single energy form are discussed.
Описание
Adventures in Friedmann Cosmology: An Educationally Detailed Expansion
of the Cosmological Friedmann Equations
%0 Generic
%1 nemiroff2007adventures
%A Nemiroff, Robert J.
%A Patla, Bijunath
%D 2007
%K adventures cosmology detailed educationally friedmann
%R 10.1119/1.2830536
%T Adventures in Friedmann Cosmology: An Educationally Detailed Expansion
of the Cosmological Friedmann Equations
%U http://arxiv.org/abs/astro-ph/0703739
%X The general relativistic cosmological Friedmann equations which describe how
the scale factor of the universe evolves are expanded explicitly to include
energy forms not usually seen. The evolution of the universe as predicted by
the Friedmann equations when dominated by a single, isotropic, stable, static,
perfect-fluid energy form is discussed for different values of its
gravitational pressure to density ratio $w$. These energy forms include phantom
energy ($w<-1$), cosmological constant ($w=-1$), domain walls ($w = -2/3$),
cosmic strings ($w = -1/3$), normal matter ($w = 0$), radiation and
relativistic matter ($w = 1/3$), and a previously little-discussed form of
energy called ültralight" ($w>1/3$). A brief history and possible futures of
Friedmann universes dominated by a single energy form are discussed.
@misc{nemiroff2007adventures,
abstract = {The general relativistic cosmological Friedmann equations which describe how
the scale factor of the universe evolves are expanded explicitly to include
energy forms not usually seen. The evolution of the universe as predicted by
the Friedmann equations when dominated by a single, isotropic, stable, static,
perfect-fluid energy form is discussed for different values of its
gravitational pressure to density ratio $w$. These energy forms include phantom
energy ($w<-1$), cosmological constant ($w=-1$), domain walls ($w = -2/3$),
cosmic strings ($w = -1/3$), normal matter ($w = 0$), radiation and
relativistic matter ($w = 1/3$), and a previously little-discussed form of
energy called "ultralight" ($w>1/3$). A brief history and possible futures of
Friedmann universes dominated by a single energy form are discussed.},
added-at = {2013-12-23T11:23:09.000+0100},
author = {Nemiroff, Robert J. and Patla, Bijunath},
biburl = {https://www.bibsonomy.org/bibtex/214d886743f052eaaf0335f0595ddd0bc/aeu_research},
description = {Adventures in Friedmann Cosmology: An Educationally Detailed Expansion
of the Cosmological Friedmann Equations},
doi = {10.1119/1.2830536},
interhash = {feeddb05c9a4462a8946354845b278f2},
intrahash = {14d886743f052eaaf0335f0595ddd0bc},
keywords = {adventures cosmology detailed educationally friedmann},
note = {cite arxiv:astro-ph/0703739Comment: 32 pages, 4 tables; modified version accepted for publication in the American Journal of Physics},
timestamp = {2013-12-23T11:23:09.000+0100},
title = {Adventures in Friedmann Cosmology: An Educationally Detailed Expansion
of the Cosmological Friedmann Equations},
url = {http://arxiv.org/abs/astro-ph/0703739},
year = 2007
}