A new approach on the stability analysis in ELKO cosmology

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2015-01-29

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Coorientador

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Springer

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In this work it has been developed a new approach to study the stability of a system composed by an ELKO field interacting with dark matter, which could give some contribution in order to alleviate the cosmic coincidence problem. It is assumed that the potential which characterizes the ELKO field is not specified, but it is related to a constant parameter delta. The strength of the interaction between matter and ELK() field is characterized by a constant parameter,8 and it is also assumed that both ELKO field and matter energy density are related to their pressures by equations of state parameters omega(phi) and omega(m), respectively. The system of equations is analyzed by a dynamical system approach. It has been found the conditions of stability between the parameters 3 and,8 in order to have stable fixed points for the system for different values of the equation of state parameters omega(phi) and omega(m), and the results are presented in form of tables. The possibility of decay of the ELK() field into dark matter or vice versa can be read directly from the tables, since the parameters 3 and beta satisfy some inequalities. It allows us to constrain the potential assuming that we have a stable system for different interactions terms between the ELKO field and dark matter. The cosmic coincidence problem can be alleviated for some specific relations between the parameters of the model,

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European Physical Journal C. New York: Springer, v. 75, n. 36, p. 1-11, 2015.

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