NASA discovers 100 new planets beyond our solar system

Mayo, doctoral student at the Technical University of Denmark and his colleagues analysed hundreds of signals of potential exoplanets to determine which signals were created by exoplanets and which were caused by other sources.

By: PTI

London | February 16, 2018 11:30 PM IST

3 min read

NASA discovers 100 new planets beyond our solar system

This image from the NASA/ESA Hubble Space Telescope shows the galaxy cluster PLCK G004.5-19.5. It was discovered by the ESA Planck satellite through the Sunyaev-Zel’dovich effect — the distortion of the cosmic microwave background radiation in the direction of the galaxy cluster, by high energy electrons in the intracluster gas. The large galaxy at the centre is the brightest galaxy in the cluster and the dominant object in this image, and above it a thin, curved gravitational lens arc is visible. This is caused by the gravitational forces of the cluster bending the light from stars and galaxies behind it, in a similar way to how a glass lens bends light. Several stars are visible in front of the cluster — recognisable by their diffraction spikes — but aside from these, all other visible objects are distant galaxies. Their light has become redshifted by the expansion of space, making them appear redder than they actually are. By measuring the amount of redshift, we know that it took more than 5 billion years for the light from this galaxy cluster to reach us. The light of the galaxies in the background had to travel for even longer than that, making this image an extremely old window into the far reaches of the Universe. This image was taken by Hubble’s Advanced Camera for Surveys (ACS) and Wide-Field Camera 3 (WFC3) as part of an observing programme called RELICS (Reionization Lensing Cluster Survey). RELICS imaged 41 massive galaxy clusters with the aim of finding the brightest distant galaxies for the forthcoming NASA/ESA/CSA James Webb Space Telescope (JWST) to study.

Scientists have confirmed nearly 100 new planets outside our solar system, bringing the total number of exoplanets found using NASA’s K2 mission to almost 300.

“We started out analysing 275 candidates, of which 149 were validated as real exoplanets. In turn, 95 of these planets have proved to be new discoveries,” said Andrew Mayo, doctoral student at the Technical University of Denmark.

“This research has been underway since the first K2 data release in 2014,” said Mayo, main author of the research published in the Astronomical Journal.

Mayo and his colleagues analysed hundreds of signals of potential exoplanets to determine which signals were created by exoplanets and which were caused by other sources.

“We found that some of the signals were caused by multiple star systems or noise from the spacecraft. But we also detected planets that range from sub Earth-sized to the size of Jupiter and larger,” said Mayo.

One of the planets detected was orbiting a very bright star. The Kepler spacecraft was launched in 2009 to hunt for exoplanets in a single patch of sky, but in 2013, a mechanical failure crippled the telescope. However, astronomers and engineers devised a way to repurpose and save the space telescope by changing its field of view periodically.

This solution paved the way for the follow-up K2 mission, which is still ongoing as the spacecraft searches for exoplanet transits.These transits can be found by registering dips in light caused by the shadow of an exoplanet as it crosses in front of its host star. The dips are indications of exoplanets, which must then be examined more closely in order to confirm their nature.The first planet orbiting a star similar to our own sun was detected in 1995. Today some 3,600 exoplanets have been found, ranging from rocky Earth-sized planets to large gas giants like Jupiter.

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“We validated a planet on a 10-day orbit around a star called HD 212657, which is now the brightest star found by either the Kepler or K2 missions to host a validated planet. Planets around bright stars are important because astronomers can learn a lot about them from ground-based observatories,” said Mayo.

“Exoplanets are a very exciting field of space science. As more planets are discovered, astronomers will develop a much better picture of the nature of exoplanets which in turn will allow us to place our own solar system into a galactic context,” he said.

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