It’s possible that the Hell planet, which is so hot it rains molten iron, is even hotter than astronomers anticipated.

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Scientists have identified an element in the atmosphere of the distant alien world that reveals that conditions on its surface are more hellish than previously believed

A planet orbiting a distant star is so hellishly hot that iron can fall as rain.

Temperatures reach over 2,400C at the surface of Wasp-76b – enough to vaporise you in seconds. Winds blow at more than 10,000mph.

Now scientists have detected ionised calcium in the upper atmosphere of the utterly alien planet.

Identification of the electrically charged element opens a new window into its extraordinary weather.

Lead author Emily Deibert, a doctoral student at the University of Toronto, said: “We are seeing so much calcium – it is a really strong feature.

“This spectral signature of ionised calcium could indicate the exoplanet has very strong upper-atmosphere winds.

“Or the atmospheric temperature on the exoplanet is much higher than we thought.”

The scorching world is 640 light-years from Earth in the direction of the constellation of Pisces.

This fiercely hot planet has fascinated astronomers since its discovery five years ago. Clouds continuously rain molten iron.

An international team – including Queen’s University Belfast – carried out the most thorough examination to date.

They analysed data from the Gemini North telescope on Hawaii’s Mauna Kea volcano.

The exoplanet has a dayside where temperatures climb above 4,350 degrees Fahrenheit (2,400 degrees Celsius) – enough to evaporate metal.

Strong winds carry iron pellets to the planet’s cooler night side – where they fall as iron “rain drops”.

Wasp-76b is known as a hot Jupiter – a gas giant that orbits very close to its star.

As a result, the iron rain sinks down to the planet’s core where it quickly re-vaporises.

WASP-76b takes less than two Earth days to orbits its star – which is hotter than the sun.

The study has implications for finding less hostile planets that could be habitable.

Co author Professor Ray Jayawardhana, of Cornell University, New York, said: “As we do remote sensing of dozens of exoplanets, spanning a range of masses and temperatures, we will develop a more complete picture of the true diversity of alien worlds.

“From those hot enough to harbour iron rain to others with more moderate climates, from those heftier than Jupiter to others not much bigger than the Earth.

“It is remarkable with today’s telescopes and instruments, we can already learn so much about the atmospheres – their constituents, physical properties, presence of clouds and even large-scale wind patterns – of planets that are. Brinkwire presents summary news.

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