QUEIROZ, Victor Hugo Castro.
Abstract:
One of the final possible stages of the life of star is a compact object called a neutron star.
It originates from a Supernova, taking another step towards stellar evolution. Neutron
stars are laboratories that allow one to study extreme conditions - densities on the order of
1017kg/m3
, extremely strong magnetic fields on the order of 1015 G (the Earth’s magnetic
field is 0.5 G), General Relativity tests and candidate detectors gravitational waves. Pulsars
are a specific type of magnetized neutron star that resembles a lighthouse, they continuously
emit beams of radiation, and appear to blink when the beams cross the observer’s field of
view due to their rotating motion. This phenomenon of "blinking" actually are quite stable
pulses due to the rotating periodicity of the pulsar, giving the pulsar the characteristic
of being an extremely accurate natural clock, competing with atomic clocks. Through
these pulses we can accurately obtain information about physical characteristics of its
nature and its position in the sky. In the course of this dissertation, we will approach
some fundamental concepts of Physics such as the nature of an electromagnetic wave and
blackbody radiation. We will also discuss a little about the structure and functioning
of radio telescopes, general information about the design of the BINGO radio telescope
that will provide a window for the study of pulsars. We present a brief introduction to
the nature of a star, looking for some of the main characteristics. Finally, we cover the
discovery of pulsars, important physical properties and a technique for detecting pulses
called pulsar timing.