Revolutionary technique lets astronomers find a huge planet that’s just like Saturn

The VLBA radio telescope network has discovered a massive exoplanet — similar to Saturn — orbiting a nearby star. And they did it using a revolutionary technique first envisioned more than a century ago. A planet as large as Saturn named TVLM 513b has been spotted orbiting a cool, dim star just 35 light-years away by astronomers using the Very Long Baseline Array (VLBA) ALMA network of radio telescopes. Using a cutting-edge network of radio telescopes, astronomers found this world utilizing a technique first envisioned more than a century ago. As large as Saturn, TVLM 513b traces out an orbit… This story continues at The Next Web

VLBA heard the radio star

Astronomers found TVLM 513b through the astrometric technique — measuring a “wobble” in the star caused by gravitational pull between the star and planet.

A network of radio telescopes the size of a continent was assembled to carry out this study. This marks the first time this method has been successfully utilized by radio astronomers in the search for other worlds.

A look at how astrometry was used to locate TVLM 513b orbiting its dim parent star. Video credit: Bill Saxton/NRAO/AUI/NSF

In June 2018, astronomers began an 18-month long study of the star TVLM 513–46546 — an ultra-cool star less than one-tenth as massive as the Sun. These findings were combined with data from previous studies conducted from March 2010 to August 2011.

Astronomers detected a wobble in the position of the star revealing the presence of a planet with the mass of Saturn orbiting closer to the star than the orbit of the planet Mercury in our own solar system.

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The Very Long Baseline Array is a continent-wide radio telescope system spanning the distance from Hawaii in the Pacific to St. Croix in the Caribbean. It provides astronomers with extremely high resolving power, the ability to see fine detail. Image credit: J. Hellermann, NRAO/AUI/NSF

“Giant planets, like Jupiter and Saturn, are expected to be rare around small stars like this one, and the astrometric technique is best at finding Jupiter-like planets in wide orbits, so we were surprised to find a lower mass, Saturn-like planet in a relatively compact orbit. We expected to find a more massive planet, similar to Jupiter, in a wider orbit,” said Salvador Curiel, of the National Autonomous University of Mexico.

More than 4,200 worlds have been found around other worlds, each by one of three methods.

The radial velocity technique examined the Doppler shift as stars move slightly closer and further away from Earth as the star is tugged by a companion planet. The transit technique measures dips in starlight as planets travel “in front of” their star as seen from Earth.

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James Maynard, standing on the dish of the 25-meter radio telescope at Kitt Peak, one of the 10 radio telescopes that make up the VLBA network. Image credit: The Cosmic Companion.

“Our method complements the radial velocity method which is more sensitive to planets orbiting in close orbits, while ours is more sensitive to massive planets in orbits further away from the star. Indeed, these other techniques have found only a few planets with characteristics such as planet mass, orbital size, and host star mass, similar to the planet we found. We believe that the VLBA, and the astrometry technique in general, could reveal many more similar planets,” said Gisela Ortiz-Leon from the Max Planck Institute for Radio Astronomy (MPIfR) in Bonn, Germany.

As early as the 19th Century, astronomers realized it would be theoretically possible to detect planets orbiting other stars using the astrometric method. As technologies improved, several reports of planets found using this technique were reported, and later found to be in error. This recent finding is just the second time an exoplanet has been found using this method.

“The VLBA, with antennas separated by as much as 5,000 miles, provided us with the great resolving power and extremely high precision needed for this discovery”, said Amy Mioduszewski, of the National Radio Astronomy Observatory.

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