The collider needed to have a high luminosity in order to ensure enough collisions were seen for conclusions to be drawn.

Despite of this, the higher luminosity of the star implies it is heated much more strongly than the Earth is.

The higher luminosity and longer rotation period favour an older age for the star.

In that case, it would have to have an extraordinarily high luminosity, equally beyond any object seen to date.

This would effectively restrict the star from shining at higher luminosities for longer periods.

The highest luminosity will be achieved in 2021.

It has 75% more mass than the Sun, which results in a much higher overall luminosity and a shorter life span on the main sequence.

Both the high luminosity and slow decay indicate that the supernova's progenitor was a very massive star.

Its high luminosity and large distance (about 1,500 light years) give it an apparent visible magnitude of 5.1.

For example, as one would expect, a galaxy with a higher luminosity has a larger effective radius.