Did you know? It can rain diamonds on other planets

Under extreme circumstances, scientists have long hypothesised that diamond rain may occur on some gas giants, including as Neptune and Uranus, as well as other exoplanets.

Screenshot 2024 10 18 at 10.21.21 AM
A cutaway of Neptune (left) shows the theorized interior structure of the planet, including the region where the hydrocarbon atmosphere may produce diamond rain (light blue) that falls onto the core (black center) Photo Credit: Greg Stewart/Stanford Linear Accelerator Center National Accelerator Laboratory

Imagine a storm in which priceless diamonds fall from the sky in place of raindrops. This phenomenon may actually exist on certain planets in our solar system and beyond, as amazing as it seems. Under extreme circumstances, scientists have long hypothesised that diamond rain may occur on some gas giants, including as Neptune and Uranus, as well as other exoplanets. This is how this unearthly weather could happen.

The Science of Diamond Rain

Under extreme heat and pressure, diamonds are formed deep under the Earth’s mantle, turning carbon into the gleaming gem we are familiar with. On a far larger scale, a comparable process is thought to occur on Uranus and Neptune.

These ice giants have dense atmospheres that are high in carbon and are mostly made of water, ammonia, and methane. Methane molecules are crushed as the atmosphere is shaken by strong storms and gravity. At temperatures above 7,000°F (3,870°C) and under tremendous pressure (about 1.5 million times Earth’s atmospheric pressure), carbon atoms separate from methane and fuse to form diamond formations.

How Diamonds Fall from the Sky

After forming, the diamonds start to descend towards the interior of the planets, where they come into contact with progressively more intense pressures and temperatures. Rivers or oceans of molten diamond are thought to form if some of these diamonds melt into a sea of liquid carbon located deep within the core. Larger diamonds might withstand the trip, possibly creating enormous diamond layers in the planet’s centre, while smaller ones might break apart en route.

In order to replicate the harsh circumstances observed on Neptune and Uranus, scientists used powerful lasers to compress polystyrene, a substance made of carbon, in a 2017 study. Their research proved that diamonds may form in these harsh conditions.

Beyond Our Solar System: Diamond Planets?

The concept of diamond rain is not exclusive to Uranus and Neptune. Exoplanets, or worlds outside of our solar system, are carbon-rich and may have even harsher environments, according to astronomers. Because of their high carbon content and extreme heat, some of these planets—like the well-known “diamond planet” 55 Cancri e—are believed to have entire surfaces encrusted with diamond.

A Search for Treasure in the Universe

Although the prospect of diamond rain may seem like an adventurer’s paradise, it would be quite difficult to harvest these diamonds from space. Existing technology cannot survive the harsh circumstances on these planets. Their abundance in space would probably make them less valuable than diamonds discovered on Earth, even if we could gather them.

But the appeal of cosmic wealth is not the only thing to be gained from studying diamond rain. It sheds light on the composition and actions of planets both inside and beyond of our solar system. Scientists can better comprehend weather patterns, planetary formation, and the characteristics of far-off worlds by learning about these processes.

The Fascination of Alien Weather

The idea of “diamond rain” serves as a reminder of the amazing and bizarre things that happen outside of our world. The universe is full with unimaginable wonders, from Titan’s methane lakes to Jupiter’s fiery Great Red Spot. Even if diamond storms are beyond our reach, they pique our interest in what is out there and encourage the upcoming generation of explorers to have big dreams.

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