Looking at the chemical composition of stars that host planets,ย  astronomers have found that while dwarf stars often show ironย  enrichment on their surface, giant stars do not. The astronomersย  think that the planetary debris falling onto the outer layer of theย  star produces a detectable effect in a dwarf star, but this pollutionย  is diluted by the giant star and mixed into its interior.

“It is a little bit like a Tiramisu or a Capuccino,” says Lucaย  Pasquini from ESO, lead-author of the paper reporting the results.ย  “There is cocoa powder only on the top!’

Just a few years after the discovery of the first exoplanet it becameย  evident that planets are preferentially found around stars that areย  enriched in iron. Planet-hosting stars are on average almost twice asย  rich in metals than their counterparts with no planetary system.

The immediate question is whether this richness in metals enhancesย  planet formation, or whether it is caused by the presence of planets.ย  The classic chicken and egg problem. In the first case, the starsย  would be metal-rich down to their centre. In the second case, debrisย  from the planetary system would have polluted the star and only theย  external layers would be affected by this pollution.

When observing stars and taking spectra, astronomers indeed only seeย  the outer layers and can’t make sure the whole star has the sameย  composition. When planetary debris fall onto a star, the materialย  will stay in the outer parts, polluting it and leaving traces in theย  spectra taken.

A team of astronomers has decided to tackle this question by lookingย  at a different kind of stars: red giants. These are stars that, asย  will the Sun in several billion years, have exhausted the hydrogen inย  their core. As a result, they have puffed up, becoming much largerย  and cooler.

Looking at the distribution of metals in fourteen planet-hostingย  giants, the astronomers found that their distribution was ratherย  different from normal planet-hosting stars.

“We find that evolved stars are not enriched in metals, even whenย  hosting planets,” says Pasquini. “Thus, the anomalies found in planet- hosting stars seem to disappear when they get older and puff up!”

Looking at the various options, the astronomers conclude that theย  most likely explanation lies in the difference in the structureย  between red giants and solar-like stars: the size of the convectiveย  zone, the region where all the gas is completely mixed. In the Sun,ย  this convective zone comprises only 2% of the star’s mass. But in redย  giants, the convective zone is huge, encompassing 35 times more mass.ย  The polluting material would thus be 35 times more diluted in a redย  giant than in a solar-like star.

“Although the interpretation of the data is not straightforward, theย  simplest explanation is that solar-like stars appear metal-richย  because of the pollution of their atmospheres,” says co-author Artieย  Hatzes, Director of the Thรผringer Landessternwarte Tautenburgย  (Germany) where some of the data were obtained.

When the star was still surrounded by a proto-planetary disc,ย  material enriched in more heavy elements would fall onto the star,ย  thereby polluting its surface. The metal excess produced by thisย  pollution, while visible in the thin atmospheres of solar-like stars,ย  is completely diluted in the extended, massive atmospheres of theย  giants.

More Information

“Evolved stars hint to an external origin of enhanced metallicity inย  planet-hosting stars”, by L. Pasquini et al. To appear in Astronomyย  and Astrophysics. The paper is available on astro-ph at http:// arxiv.org/abs/0707.0788

The team is composed of L. Pasquini and M.P. Doellinger (ESO), A.ย  Weiss (Max-Planck-Institut fuer Astrophysik, Garching, Germany), L.ย  Girardi (INAF-Osservatorio Astronomico di Padova, Italy), C. Chaveroย  (Instituto de Astrofisica de Canarias, Tenerife, Spain, andย  Observatorio Nacional/MCT, Rio de Janeiro, Brasil), A. P. Hatzesย  (Thรผringer Landessternwarte Tautenburg, Germany), L. da Silvaย  (Observatorio Nacional/MCT, Rio de Janeiro, Brasil), and J. Setiawanย  (Max Planck Institute fuer Astronomie, Heidelberg, Germany). The data have been partially collected at ESO, and partially at the 2- m telescope of the Thueringer Landessternwarte Tautenburg (TLS).

A high-resolution image is available at http://www.eso.org/public/outreach/press-rel/pr-2007/pr-29-07.html

Science Contacts:

Luca Pasquini
ESO Garching, Germany
Phone: +49 89 3200 6792
Email: lpasquin@eso.org

Artie Hatzes
Thueringer Landessternwarte Tautenburg, Germany
Phone: +49-36427-863-51
Email: artie@tls-tautenburg.de