The Galactic Heartbeat

Time is a very slow thing when we talk about the universe. Stars can live for many Billions of years, and over human timescales they seem stagnant and unchanging. So it’s no surprise that when we look at distant galaxies, they don’t appear to change at all over the course of centuries. But appearances can be deceiving. Galaxies do change, more quickly than you would imagine. M87, pictured above, is a monstrous Galaxy of nearly 1 Trillion stars, more than twice as populous as the Milky Way. It looks like a big fuzzy star, and it quite regular in appearance...

The Seeding of Life on Distant Worlds

The concept of Panspermia is a description of all life in the Galaxy having been seeded by other life, all originating at one point.  This life can hitch a ride from star to star on comets, meteorites, and rogue planets.  It’s true we have never found evidence for life outside of our own home planet, but if panspermia is a viable theory, it could mean that life is everywhere, just waiting for us to find it. In a new study from astronomers as the Harvard-Smithsonian Centre for Astrophysics, panspermia creates ‘oases’ where pockets of life form.  As life is able...

Astronomy ‘Bomb Squad’ Looks at 3D Picture of Cas A Supernova Remnant

Cassiopeia A is the expanding remainder of a massive star that exploded 340 years ago in he constellation of Cassiopeia (hence we call it Cas A for short).  As the star erupted, hot radioactive material was shot out in all directions, churning up the surrounding outer debris, before the star finally tore itself apart.  Simulations of supernova explosions have found it difficult to model the extreme conditions during this process, even when using the world’s best supercomputers.  So what are astronomers missing? By studying recent supernovae like Cas A, astronomers can study the processes that formed these massive expanding shock waves, leading...