January 20, 2022

This’ll be us… in 5 Billion Years

This’ll be us… in 5 Billion Years
This’ll be us… in 5 Billion YearsThis’ll be us… in 5 Billion Years

Scientists have long known the fate of our solar system – and likely the fate of Earth itself.   In a few billion years, the Sun will run out of fusion fuel and expand to a “red giant” phase, likely swallowing everything in the solar system up to the orbit of Mars.  But, some of the planets past that point could survive, like Jupiter and Saturn.  Now, scientists have used the Keck Observatory to see a system that looks like what ours will after the Sun’s red giant phase for the very first time.

They used a technique called gravitational lensing, an exoplanet detection technique that the effect gravity has on light to detect planets around stars that lined up directly in front of another star.  Specifically, they can detect planets around stars closer to Earth and then have a star aligned directly behind them.

UT video discussing the end of the Earth.

In this case, a team led by Joshua Blackman, a postdoc at the University of Tasmania, saw a planet as part of the microlensing system but didn’t see enough starlight in the foreground for the star the planet was orbiting to be a main-sequence star. Other possibilities such as a brown dwarf, neutron star, or black hole were also ruled out, leaving only one potential option – this newly found planet was bribing a white dwarf.

White dwarfs are the final form that main sequence stars take when they die and which aren’t big enough to become a neutron star or black hole.  After progressing through the red giant phase, they collapse back onto themselves in a last gasp and end up as a white dwarf, where they can last for billions of years.

UT video discussing the sun’s evolution and eventual death.

Astronomers had previously theorized that some planets might survive a star’s destructive red-giant phase and end up orbiting white dwarfs, but this is the first exoplanetary system that shows such an arrangement.   The parallels to our own system are striking.  The confirmed planetary candidate is 40% larger than Jupiter, while the white dwarf remnant is about 60% of the mass of the Sun.  Our Sun doesn’t have enough mass to create a black hole or a neutron star as part of its destruction, so it will end up in a similar white dwarf state in a few billion years.

Finding an example solar system shows that there is a possibility to ride out the Sun’s destruction, though relying on the white dwarf for heat to keep life going will not be possible. Unless life finds a way to either expand out of the solar system or supply itself with energy not related to the Sun, it would be doomed even if the planet (or moon) it based itself on survived.  But this is one more exoplanetary finding that will help futurists plan for that extremely far our eventuality.

Learn More:
Keck – A Crystal Ball Into Our Solar System’s Future
Nature – A Jovian analogue orbiting a white dwarf star
Engadet – Planet orbiting a dead star previews our own solar system’s fate
UT – What is the Life Cycle Of The Sun?

Lead Image:
Artist’s depiction of the white dwarf system.
Credit – W. M. Keck Observatory / Adam Makarenko