Accretion disc - The disc around Blackholes

An accretion disc is a structure formed by diffuse material in orbital motion around a central body. The central body is typically a star. Gravity causes material in the disc to spiral inward towards the central body. Gravitational forces compress the material causing the emission of electromagnetic radiation. The frequency range of that radiation depends on the central object. Accretion discs of young stars and protostars radiate in the infrared; those around neutron stars and black holes in the x-ray part of the spectrum.

Accretion discs are a ubiquitous phenomenon in astrophysics; active galactic nuclei, protoplanetary discs, and gamma ray bursts all involve accretion discs. These discs very often give rise to jets coming from the vicinity of the central object. Jets are an efficient way for the star-disc system to shed angular momentum without losing too much mass.

The most spectacular accretion discs found in nature are those of active galactic nuclei and of quasars, which are believed to be massive black holes at the center of galaxies. As matter spirals into a black hole, the intense gravitational gradient gives rise to intense frictional heating; the accretion disc of a black hole is hot enough to emit X-rays just outside of the event horizon. The large luminosity of quasars is believed to be a result of gas being accreted by supermassive black holes. This process can convert about 10 percent of the mass of an object into energy as compared to around 0.5 percent for nuclear fusion processes.

In close binary systems the more massive primary component evolves faster and has already become a white dwarf, a neutron star, or a black hole, when the less massive companion reaches the giant state and exceeds its Roche lobe. A gas flow then develops from the companion star to the primary. Angular momentum conservation prevents a straight flow from one star to the other and an accretion disc forms instead.

Accretion discs surrounding T Tauri stars or Herbig stars are called protoplanetary discs because they are thought to be the progenitors of planetary systems. The accreted gas in this case comes from the molecular cloud out of which the star has formed rather than a companion star.

However the the phenomenon behind the formation of Accretion disc jets remains an unsolved problem in Physics.

Pulsars in brief :-

Its about the PULSAR ...A pulsar is a neutron star that’s spinning in a special way. (Remember, everything in the universe spins). First you need to know something about poles. The Earth has two north poles and two south poles. Yes, it’s true. One set is because the Earth is spinning: the poles are the tips of the axis that the Earth spins on. The other set is because the Earth has a magnetic field: all magnets have a north side and a south side. On Earth, these two sets of poles are slightly misaligned.In a pulsar, the poles are even more misaligned, so as the star spins, the magnetic field is swung around in circles. When this happens to a neutron star, you get a super-bright beam of light beaming out from the magnetic poles. Since these poles are swinging around, so do the beams of light – just like a lighthouse.