Eventually, some of the stars are expected to die in a fiery blast, triggering another cycle of stellar birth and death.

Detailed observations of a star cluster nebula provide astronomers with a laboratory for understanding the early universe, and stellar birth and death cycles.

This pipeline is creating significant stellar birth in the galaxy receiving it.

In this sense a star is in a "temporary" equilibrium state between a gravitational collapse at stellar birth and a further gravitational collapse at stellar death.

The cycle of stellar birth and death slowly increases the abundance of heavy elements, eventually allowing the formation of planets.

In their death throes they strewed more metals into the vacuum and triggered yet more cycles of stellar birth .

As Shockwaves rebounded through the galaxies, furious new cycles of stellar birth would be kickstarted.

Using submillimetre observations, astronomers examine molecular clouds and dark cloud cores with a goal of clarifying the process of star formation from earliest collapse to stellar birth.

The event occurred roughly 630 million years after the Big Bang, confirming that massive stellar births (and deaths) did indeed occur in the very early Universe.

We are twin races, born of the same stellar birth.