Exoplanet Hunters

in Space

How Planet Hunters Identify Distant Exoplanets

We don’t actually “know” what those distant planets are made of. But exoplanet hunters are working on it.

Very smart people have used humanity’s best tools to prove that these planets are likely not anything but what they claim them to be.

Such as 55 Cancri e or “The Diamond Planet”

The Better Question Is

How do these smart people make these guesses about these distant things they’ve never been to before?

Earth is known to have a certain density and a certain internal makeup of minerals. Scientists compare the density of Earth to that of other planets and make assumptions about their mineral makeups accordingly.

They determine the density of another planet through the use of Newtonian Mechanics. As the planet orbits its home star they exert a pull on each other which can be measured. Using the Doppler effect we can from there calculate the mass of this distant planet.

Knowing the volume of distant planets is another battle. By watching eclipses we can find with somewhat less accuracy than mass how much of the surface of this planet has been occluded. That can be measured and from there a diameter of the distant planet determined.

The planet’s volume and its mass are used to calculate density. Knowing a planets density gives us a solid idea about the kind of planet it is – rocky inner core, outer gas giant and so on.

Understanding Exoplanets Atmosphere

Knowing the light absorption rates of all earthly elements we can measure the spectrums of distant planets and from there assume pretty accurately what kind of atmosphere they’ll have.

This gives us a pretty complete idea of what these distant planets are like.

The Diamond Planet

The diamond planet just follows a few of these principles.

By measuring the suns wobble from it astronomers know its mass is roughly 8x that of Earths and through eclipses they know it’s about twice as big.

Further by tracking it’s position relative to its sun they know it races around its star very quickly because it’s so close. One “year” lasts only 18 hours.

Through indirect observations researchers in the original 2012 study determined its interior contained more carbon than oxygen. Which in the intense heat of its proximity to its sun would become superheated. The planets weighty mass and proximity to the sun would create a strong pressure on this carbon, and as we all know – heat and pressure makes diamonds.

Science Never Stops

Further study later showed Cancri e wasn’t as carbon rich as had been originally thought. So its really more of a super massive lava ball. Likely more similar to Mercury than the brilliant, super massive diamond floating through space we can so easily imagine.

The story of Cancri e reinforces that astronomy is just a guess. It’s why new research tools like the James Webb Telescope are so vital.

More information means more accurate guesses and a better understanding of this marvelous, confusing universe we’re so lucky to inhabit.


Written by Andrew Walls

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