GUEDES, C. T. S.; http://lattes.cnpq.br/8911228432311560; GUEDES, Claudiély Teixeira de Souza.
Abstract:
Neutron stars are one of the possible ends of life for massive stars that belong to the main
sequence. They are small but extremely hot and dense, have very high gravities and can
have extreme magnetic fields. The development of the theory of general relativity was
fundamental for the study and understanding of the objects in question, because it would
be impossible to understand them using Isaac Newton’s classical theory of gravitation.
The metric that geometrically characterizes neutron stars is inspired by the Schwarzschild
solution for general relativity. Within the study of pulsars, it is necessary to understand
that neutron stars have a rotation composed of two components: a solid body and a fluid
one. In this way, the strong magnetic fields exert a deceleration effect on the rate of
rotation that occurs from the moment there is a loss in the angular momentum of the
electromagnetic radiation. Thus, the present work aims to approach general relativity,
making an approach about the generalities of real scalar fields, and, later, this tool will
be applied for the characterization of parameters used in the description of pulsars, more
specifically in the study of the display of the braking index, in order to obtain curves
of the braking index as a function of time. In these approaches, we hope to submit our
theoretical proposals to experimental data.