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Astronomers have smashed the record for the smallest planet beyond our Solar System identifying Kepler-37b, an exoplanet which is only slightly larger than our Moon.

To spot the tiny, probably rocky planet, they first needed to precisely measure the size of its host star.

They did so using “astroseismology” – effectively, turning tiny variations in the star’s light into sounds.

A report in Nature describes the blistering, probably rocky planet, which orbits its star in just 13 days.

It is joined in this far-flung solar system by two other planets, one three-quarters Earth’s size and one twice as large as Earth.

The record for smallest “exoplanet” is routinely being broken, as astronomers get better and better at finding them.

The best tool in the planet-hunters’ toolbox is the Kepler space telescope, which stares at a fixed part of the sky, trying to detect the tiny dips in stars’ light that happens when planets pass in front of them: what is called a transit event.

In its earliest days, the Kepler team tended to find large planets – Jupiter- and Neptune-sized behemoths. In more recent years, the catalogue of exoplanet has seen an increasing number of so-called super-Earths, up to about twice the radius of our planet.

Only recently has something definitively Earth-sized been found.

But the new find is a planet just a third the size of that recent record-holder, smaller even than our Solar System’s smallest planet, Mercury.

Astronomers have smashed the record for the smallest planet beyond our Solar System identifying Kepler-37b, an exoplanet which is only slightly larger than our Moon

Astronomers have smashed the record for the smallest planet beyond our Solar System identifying Kepler-37b, an exoplanet which is only slightly larger than our Moon

“I think it’s an amazing technological achievement to be able to be able to detect small rocks like this,” said Francois Fressin, a co-author of the paper based at the Harvard-Smithsonian Center for Astrophysics.

“It means we’re really in the arena where it’s possible to detect all the planets of our Solar System, but around other stars,” he said.

The find of Kepler 37b and its two companions can in part be ascribed to a wealth of data from the Kepler telescope; it has been recording data for nearly four years, and signals that would once have been too small to see have been slowly accumulating, with smaller planets becoming more apparent.

But telling just how small a given planet is depends on a relative measurement: how much light there is when the planet is and is not in front of the host star. The degree to which we can know the planet’s size depends on how well we can know the host star’s size.

That is where the science of astroseismology comes in – and a team of experts in this area of science at the University of Birmingham in the UK took a look at the data.

“Inside stars it’s a very noisy environment, and that noise sets up sound waves that travel all the way through the star,” said Birmingham’s Yvonne Elsworth.

“Some of (the waves) will resonate, just like a musical instrument – the turbulence causes them to ring at frequencies that are characteristic of the star,” she said.

“If we look at the star we can see those oscillations, the amount of light we get from the star varies – slowly and by a very small amount – at frequencies that tell us what’s going on inside the star.”

And also like a musical instrument, those “resonant” frequencies tell researchers just how big the star actually is.

Together, the analyses point to the presence of three planets. Kepler-37b and c are about 30% and 74% as large as the Earth, and Kepler-37d is about twice Earth’s size.

The three orbit their star in 13, 21, and 40 days respectively – all within orbits just 20% of the Earth-Sun distance.

It is, in short, another interesting solar system to go in the burgeoning catalogues of exoplanets – and the notion that exoplanet news has been in plentiful supply in recent years is not lost on Dr. Francois Fressin.

“I understand that people could get bored by these successive announcements,” he said.

“But hundreds or thousands of years from now, this will be remembered as the decade where discovery of other worlds of all kinds has been made possible.”

Astronomers using Hubble Space Telescope have confirmed the existence of a new class of planet: a waterworld with a thick, steamy atmosphere.

The exoplanet GJ 1214b is a so-called “Super Earth” – bigger than our planet, but smaller than gas giants such as Jupiter.

Observations using the Hubble telescope now seem to confirm that a large fraction of its mass is water.

The planet’s high temperatures suggest exotic materials might exist there.

“GJ 1214b is like no planet we know of,” said lead author Zachory Berta, from the Harvard Smithsonian Center for Astrophysics.

The planet was discovered in 2009 by ground-based telescopes. It is about 2.7 times the Earth’s diameter, but weighs almost seven times as much. It orbits its red-dwarf star at a distance of just two million km, meaning temperatures on GJ 1214b probably reach above 200C.

In 2010, astronomers released measurements of its atmosphere. These suggested that GJ 1214b’s atmosphere was probably made up of water, but there was another possibility – that the planet was covered in a haze, of the type that envelopes Saturn’s moon Titan.

Exoplanet GJ 1214b, so-called "Super Earth”, is bigger than our planet, but smaller than gas giants such as Jupiter

Exoplanet GJ 1214b, so-called "Super Earth”, is bigger than our planet, but smaller than gas giants such as Jupiter

Zachory Berta and his colleagues used the Hubble Space Telescope’s wide-field camera to study the planet as it crossed in front of its star – a transit. During these transits, the star’s light is filtered through the planet’s atmosphere, giving clues to the mixture of gases present.

The researchers said their results are more consistent with a dense atmosphere of water vapor, than one with a haze.

Calculations of the planet’s density also suggest that GJ 1214b has more water than Earth. This means the internal structure of this world would be very different to that of our own.

“The high temperatures and pressures would form exotic materials like <<hot ice>> or <<superfluid water>>, substances that are completely alien to our everyday experience,” said Dr. Zachory Berta.

The planet’s short distance from Earth makes it a likely candidate for follow-up observations with the James Webb Space Telescope, which may launch by the end of this decade.

The study has been accepted for publication by the Astrophysical Journal.

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