One possibility is that
exploding stars blast normal matter out of galaxies.
Not exact matches
The
blast, designated GRB 080913, arose from an
exploding star 12.8 billion light - years away.
Lower velocity runaway
stars can be produced when one half of a binary pair
explodes as a supernova,
blasting its partner away.
The results of two studies of recent gamma - ray bursts, published today in the journal Science, indicate that
exploding stars called supernovae may spawn some of these
blasts.
First, a massive
star exploded as a supernova,
blasting its debris out into space.
The material
blasted out by an
exploding star moves so quickly that it creates a shock wave which can accelerate protons and form cosmic rays.
When these supercharged early
stars ran out of fuel and
exploded as supernovae, they would have
blasted the interstellar gas right out of the galaxy.
Material falling from the
exploded star onto the compact companion would have been heated and
blasted back into space in two narrow jets, along with a beam of radiation.
Since pulsars are superdense, spinning neutron
stars left over when a massive
star explodes as a supernova, it was logical to assume that the Monogem Ring, the shell of debris from a supernova explosion, was the remnant of the
blast that created the pulsar.
Norbert Schulz and Nicola Omodei discuss the recent detection of a dying
star igniting the most powerful
blast ever seen — something so powerful it radiated energy that was 500 million times that of visible light and how scientists have discovered that a familiar sight in the skies is actually our earliest view yet of a
star being consumed by the remnant of a nearby
exploded star.
«The latest findings strongly suggest the
exploding star literally sloshed around, re-energizing the stalled shock wave and allowing the
star to finally
blast off its outer layers,» the researchers said.
When I watched the Rogue One: A
Star Wars Story trailer, I saw vivid laser
blast flares and detailed explosions as rockets
exploded on attacking Imperial AT - ATs.