Astronomers discover a giant inflated exoplanet orbiting a distant star June 22, 2016 by Tomasz Nowakowski report (Phys.org)—An international team of astronomers has discovered a giant extrasolar planet that appears to be larger than it should be. According to a new research paper published on June 19 on arXiv.org, the newly detected alien world, designated EPIC 211351816.01, is an inflated planet, orbiting a distant red giant star. Moreover, the researchers suggest, that this exoplanet could be the first example of a new class of "re-inflated" planets. Some giant planets expand in size when their parent stars are at the end of their lives. These so-called inflated planets have been known to astronomers for almost two decades, but it is still unclear what causes the inflation processes. In general, the possible explanations could be assigned to two different theories—scientists believe that the inflation is caused by deposition of energy from the host star, or due to inhibited cooling of the planet. Re-inflated planets are born large, but they shrink due to gravity like other gas giants. However, they balloon in size when their stars turn into red giants and grow hotter. Therefore, they appear to observers as giant planets, bigger than they should be, and also farther from their star than usual Jupiter-sized exoplanets. Finding a re-inflated planet could reveal the real cause of inflation mechanisms. It could be essential to improving our knowledge about the evolution of giant planets. Read more at: http://phys.org/news/2016-06-astronomers-giant-inflated-exoplanet-orbiting.html#jCp
https://arxiv.org/abs/1606.05818 EPIC 211351816.01: A (Re-?)Inflated Planet Orbiting a Red Giant Star Abstract: Giant planets with high incident fluxes have been observed with radii larger than thermal evolution models would allow. Although these inflated planets have been known for almost two decades, it is unclear whether their inflation is caused by deposition of energy from the host star, or inhibited cooling of the planet. These processes can be distinguished if the planet becomes highly irradiated only when the host star evolves onto the red giant branch. We report the discovery of EPIC 211351816.01, a 1.27 +/- 0.09 RJ, 1.10 +/- 0.11 MJ planet orbiting a 4.20 +/- 0.14 Rsun, 1.16 +/- 0.12 Msun red giant star with an orbital period of 8.4 days. We precisely constrained stellar and planetary parameters by combining asteroseismology, spectroscopy, and granulation noise modeling along with transit and radial velocity measurements. Our calculations suggest the incident flux on this planet was ~200 +/- 100 times the flux on Earth while the star was on the main sequence, comparable to the suggested threshold flux for planet inflation. This suggests the planet was significantly less inflated in the past, and its current measured planet radius is inconsistent with delayed cooling since formation. Thus, this system provides the first clear evidence that planets are inflated directly from a process dependent on the incident stellar radiation rather than by delayed loss of heat from formation. Further studies of planets around red giant branch stars will confirm or contradict this inflation hypothesis, and may reveal a new class of re-inflated planets.
