New Observations Fail to Confirm a Planet at Barnard's Star

New Observations Fail to Confirm a Planet at Barnard's Star

With all the new discoveries that seem to occur almost monthly, it’s sometimes hard to remember that finding exoplanets is still a relatively new and difficult science.  As part of those continual discoveries, back in 2018 a team announced they had found a planet candidate around Barnard’s Star, one of the closest to our own.  Now, a different team has re-analyzed the data, collected some new data, and found that the planet detection was likely a false positive.  

A variety of factors were suggested as a cause of the false positive.  But it is easiest to think through it by considering the detection method, the star’s rotational period, and a signal processing artifact.

The team that originally detected the planet was known as CARMENES, which is a consortium of Spanish and German astronomers.  They did their due diligence, observing the star over the course of 23 years using 7 different instruments to collect data.  In fact, they were not the first group to suggest that the second closest star system to our own might have a planet.  In 1963 an astronomer named Peter van de Kamp claimed to have found a planet around the star in what would then have been the first discovery of an exoplanet.  That finding was later debunked by a variety of researchers who also used the astrometry method but were not able to reproduce the “wobble” that van de Kamp found.

https://youtu.be/4u_dVKKRoPw Discussion of the astrometry method of exoplanet hunting.Credit: ESA YouTube Channel

Fast forward to 2018 and the CARMENES team announce their new planet around Barnard’s star that they found using the radial velocity (RV) method.  This method relies on the slight blue-shifting and red-shifting that takes place as a star approaches or recedes from us that is caused by the pull of a planet it is orbiting around.

Some factors confound these RV measurements.  One that seems to have caused the false positive around Barnard’s star results from the star’s rotational period.  Barnard’s star has an extremely slow rotation - around 145 days, which is almost 6 times longer than the Sun’s 25 day rotational period.  

Example of aliasing of a periodic signal. If samples are only taken at points 1,5, and 9 then either of the two signals would fit the data.Credit: Andrew Jarvis, Wikimedia Commons /wp:image wp:paragraph Periods of 145 days (the star’s rotational period) and 233 days (the proposed planet’s orbital period) are aliases of each other.  Aliasing happens when data is only intermittently sampled.  That is exactly what happens when ground based telescopes are no longer able to observe the star, either because of the Earth’s rotation or because of its position around the Sun - hence the 270 days observational window mentioned above. /wp:paragraph wp:paragraph If a signal is “sparsely” sampled, the resulting data could be fit by multiple sinusoidal patterns.  Those sparsely sampled data points can also be affected by the sunspots mentioned above.  In fact, they can do so in a way that can create a false positive, which the HPF team believes happened in the case of the exoplanet at Barnard’s star. /wp:paragraph wp:embed {"url":"https://www.youtube.com/watch?v=niUOc5_o438","type":"video","providerNameSlug":"youtube","responsive":true,"className":"wp-embed-aspect-16-9 wp-has-aspect-ratio"} https://www.youtube.com/watch?v=niUOc5_o438 UT video video partially discussing Barnard's star as the closest star in the northern hemisphere. /wp:embed wp:paragraph To prove their point, they reanalyzed the old data and also collected new data on the star.  The new data collection was made easier, as astronomers commonly use the relatively stable Barnard’s star as a calibration tool for commissioning their instruments.  With this new data set, they couldn’t find any evidence for a planet.  When they reanalyzed the data and compared them to three different expected models of the system. The first would be if the system had a planet with no stellar activity (ie sunspots), the second would be if there was a planet but there was also stellar activity, and the third was if there was no planet, but still stellar activity. /wp:paragraph wp:paragraph Using Occam’s razor, they found that the third model, which lacks a planet, was the one that best fit the entire dataset.  This all means that it is not looking good for the presence of a planet at Barnard’s star . /wp:paragraph wp:embed {"url":"https://www.youtube.com/watch?v=uCTGIxmM-e4","type":"video","providerNameSlug":"youtube","responsive":true,"className":"wp-embed-aspect-16-9 wp-has-aspect-ratio"} https://www.youtube.com/watch?v=uCTGIxmM-e4 UT Video discussing the search for exoplanets and the new telescopes that will be used to find them. /wp:embed wp:paragraph The CARMENES team themselves suggested this might be possible, and noted in their original paper and press release that they could not be 100% sure of the presence of a planet.  As part of the scientific process, they will be able to review the paper written by the HPF team and see if they agree with their conclusions or can offer another explanation for their original finding. /wp:paragraph wp:paragraph Another take away to consider from this entire exercise is that scientists need to use caution when calibrating new highly sensitive instruments.  Even standard calibration tools that have been used for decades, such as Barnard’s star, are active at a level which the most sensitive instruments made today can detect.  If that activity isn’t taken into account, planets around one nearby neighbor won’t be the only false positives that come from those new instruments. /wp:paragraph wp:paragraph Learn More:PSU - A very stealthy alias: the impostor planet of Barnard’s stararXiv - Stellar Activity Manifesting at a One Year Alias Explains Barnard b as a False PositiveForbes - Astronomers Rule Out Super-Earth Around Barnard’s StarS&T - A team of astronomers with new data and analysis is disputing the claim that a super-Earth orbits nearby Barnard’s starUT - Amateur Astronomer Chases Down Barnard’s Star – You Can Too! /wp:paragraph wp:paragraph Lead Image:Artist impression of the putative exoplanet that might not actually exist.Credit: ESO / M. Kornmesser /wp:paragraph

Andy Tomaswick