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This article is cited in 1 scientific paper (total in 1 paper)
A Unified Model of Phantom Energy and Dark Matter
Max Chavesa, Douglas Singletonb a Escuela de Fisica Universidad de Costa Rica, San Jose, Costa Rica
b Physics Department, CSU Fresno, Fresno, CA 93740-8031, USA
Abstract:
To explain the acceleration of the cosmological expansion researchers have considered an unusual form of mass-energy generically called dark energy. Dark energy has a ratio of pressure over mass density which obeys $w=p/\rho<-1/3$. This form of mass-energy leads to accelerated expansion. An extreme form of dark energy, called phantom energy, has been proposed which has $w=p/\rho<-1$. This possibility is favored by the observational data. The simplest model for phantom energy involves the introduction of a scalar field with a negative kinetic energy term. Here we show that theories based on graded Lie algebras naturally have such
a negative kinetic energy and thus give a model for phantom energy in a less ad hoc manner. We find that the model also contains ordinary scalar fields and anti-commuting (Grassmann) vector fields which act as a form of two component dark matter. Thus from a gauge theory based on a graded algebra we naturally obtained both phantom energy and dark matter.
Keywords:
dark energy; phantom energy; graded algebras.
Received: November 1, 2007; in final form January 22, 2008; Published online January 30, 2008
Citation:
Max Chaves, Douglas Singleton, “A Unified Model of Phantom Energy and Dark Matter”, SIGMA, 4 (2008), 009, 11 pp.
Linking options:
https://www.mathnet.ru/eng/sigma262 https://www.mathnet.ru/eng/sigma/v4/p9
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