First planet confirmed from the Calar Alto Observatory

RedGiantAndPlanet

 An exoplanet is confirmed for the first time using an instrument built by the Calar Alto Observatory. It is the first planet orbiting a giant star whose confirmation is beyond any doubt.

The planetary nature of an object orbiting the giant star KIC 8219268 has been confirmed by using the radial velocity technique and the Calar Alto Fiber-fed Echelle spectrograph (CAFE), the first instrument built by the Spanish-German Astronomical Center, in Almería, Spain. Researchers from the Center of Astrobiology (CAB, INTA-CSIC), the Max-Planck Institut für Astronomy (MPIA, MPG), Centro de Astrofisica e Departamento de Física e Astronomia (Universidade do Porto), Instituto de Astronomía (UNAM) and from Calar Alto (CAHA), in Spain, Germany, Portugal and Mexico have applied this well understood methodology and have obtained a mass similar to Jupiter. The planet, named Kepler-91b, is located extremely close to the star. This is the first planet ever confirmed based on data acquired from Calar Alto Observatory.

 

 The star KIC 8219268 was identified by the satellite Kepler and identified as potentially harboring a planet with a orbital period of 6.246580 days, due to small periodical dims in the Kepler light curve. As a planet host candidate, it was named Kepler Object of Interest 2133. By analyzing the exquisite data, our team inferred the presence of a planet with a mass slightly lighter than Jupiter, orbiting very nearby the central star, at about 2.32 stellar radii. This was achieved by analyzing the light curve modulations due to the presence of a planet, the transit dim provoked by the tiny stellar occultation by the planet, and asteroseismic signals due to the oscillations in the star itself. Thus, the Kepler team assigned the name Kepler-91b for the planet.

 

We concluded that Kepler-91b could be the previous stage of the planet engulfment, and it would be the closest planet to a giant star. With a slightly elliptical orbit, the central star should subtend an angle of 48 degrees at the closest approach, covering around 10% of the sky as seen from the planet. In addition, the planetary atmosphere seems to be inflated probably due to the high stellar irradiation.

 

Quasi-simultaneous works rejected the planetary nature of Kepler-91b, based on the Kepler light curve analysis and its self-luminous property. Thus, two different groups claimed that is was just an eclipsing binary with another star nearby, which might or might not be physically connected to the first two stars.

 

To solve this dichotomy in the interpretation, which leads to totally opposed conclusions, we have collected high-resolution spectroscopy with the Calar Alto Fiber-fed Echelle spectrograph (CAFE). It has been the first instrument ever built at the observatory and it works with the 2.2m telescope under very strict and controlled conditions. The radial velocity technique was used to detect a planet for the first time in 1995 and since then 573 planets in 429 planetary systems have been confirmed using this method, making it the reference in the exoplanetary studies. Our data independently confirm the presence of a planet with a mass of 1.09 Jupiter masses, a value fully compatible with our previous estimate based on the light curve modulations. Thus, a spin-off result is the validation of the light curve modulation as a bona-fide planetary confirmation technique. The paper describing these results, led by Jorge Lillo-Box and David Barrado, has been accepted by Astronomy & Astrophysics Letters.


 

A Spanish-German consortium is building a new state-of-the-art optical and near-infrared spectrograph, called CARMENES. Its goal is to hunt for rocky planets orbiting around cool stars. It is expected to see first light in late 2015 and it will work at the CAHA 3.5m telescope. CAFE at the 2.2m telescope has become a stepping stone for the techniques and observing strategies which will be applied to CARMENES, bridges the gaps during these months until CARMENES arrives and also is covering a unique niche in the complex ecology of exoplanets.


 

More information

 


Press Releases:


CAB press release:

 

http://www.cab.inta-csic.es/es/noticias/168

 

MPIA press release (german version):

 

http://www.mpia.de/Public/menu_q2.php?Aktuelles/PR/2014/PR_2014_06/PR_2014_06_de.html

MPIA press release (english version):

http://www.mpia.de/Public/menu_q2.php?Aktuelles/PR/2014/PR_2014_06/PR_2014_06_en.html

 


Videos:

 

Spanish version:


https://cloud.cab.inta-csic.es/public.php?service=files&file=%2Fbarrado%2Ffiles%2FKeplerPlanetVideo%2FKepler_91b_Espan%CC%83ol.avi


https://www.youtube.com/watch?v=s3TOD_Ur6WI

 

English versión:

 

https://cloud.cab.inta-csic.es/public.php?service=files&file=%2Fbarrado%2Ffiles%2FKeplerPlanetVideo%2FKepler_91_English_b.avi


https://www.youtube.com/watch?v=7U68-707b9M&hd=1



Figures:


Figure1

Figure 1:The dim in the brightness in the light curve of KIC 8219268 (aka KOI2133 and Kepler-91). This is the initial signature of the presence of a planet orbiting around the star.


Figure2

Figure 2: The light curve for Kepler-91, derived from the Kepler data. The solid green line shows our solution based on the effect of the planet. The mass of the planet, among other parameters, is derived from the data and the modeling.


Figure3

 

Figure 3: The radial velocity data collected with the CAFÉ spectrograph at Calar Alto Observatory (red circles). The solid black green shows our current solution based on the spectroscopic data. The agreement for the mass of the planet with the results from the Kepler light curve is excellent, confirming the planetary nature of Kepler-91b in a totally independent way.




Figure4

Figure 4: Artistic rendering of the red giant star and the planet, as it crosses the stellar disk, producing a dim in the light curve (Credit D. Cabezas).

 

 

Figures at high resolution at:

 

https://cloud.cab.inta-csic.es/public.php?service=files&file=%2Fbarrado%2Ffiles%2FKeplerPlanetVideo%2FKepler91_ENG_4fig.zip

 


Paper:

 

Radial velocity confirmation of Kepler-91 b. Additional evidence of its planetary nature using the Calar Alto/CAFE instrument”, Astronomy & Astrophysics Letters.


 

http://www.aanda.org/10.1051/0004-6361/201424587

 

https://cloud.cab.inta-csic.es/public.php?service=files&file=%2Fbarrado%2Ffiles%2FKeplerPlanetVideo%2FKepler91b_RV_ACCEPTED.pdf



The team:

 

J. Lillo-Box (Astrophysics Department, Center of Astrobiology, CSIC-INTA, Spain); D. Barrado (Astrophysics Department, Center of Astrobiology, CSIC-INTA, Spain); T. Henning (Max Planck Institut für Astronomie, Germany); L. Mancini (Max Planck Institut für Astronomie, Germany); C. Ciceri (Max Planck Institut für Astronomie, Germany); P. Figueira (Instituto de Astronomia e Ciências do Espaço/Centro de Astrofísica, Universidade do Porto, Portugal);  N.C. Santos (Instituto de Astronomia e Ciências do Espaço/Centro de Astrofísica, Departamento de Física e Astronomia, Faculdade de Ciências, Universidade do Porto, Portugal); J. Aceituno (Centro Astronómico Hispano-Alemán, Calar Alto Observatory, Spain); and S. Sánchez (Instituto de Astronomía,Universidad Nacional Autonóma, México)

 


Contacts:

 


In Spain.-

 

Jorge Lillo-Box, PhD student

Astrophysics Department, Center of Astrobiology, (CSIC-INTA)

Email: Esta dirección electrónica esta protegida contra spambots. Es necesario activar Javascript para visualizarla , Phone: +34 918 131 225

 

David Barrado, senior researcher

Astrophysics Department, Center of Astrobiology, (CSIC-INTA)

Email: Esta dirección electrónica esta protegida contra spambots. Es necesario activar Javascript para visualizarla , Phone: +34 918 131 261

 

In Germany.-

 

Dr. Markus Pössel, Public Information Officer

Max Planck Institute for Astronomy Königstuhl 17 69117 Heidelberg

E-Mail: Esta dirección electrónica esta protegida contra spambots. Es necesario activar Javascript para visualizarla , Phone: +49 6221 528 261

 

In Portugal.-

 

Pedro Figueira, Investigador FCT

Instituto de Astronomia e Ciências do Espaço (IA)

Centro de Astrofísica da Universidade do Porto (CAUP)

Email: Esta dirección electrónica esta protegida contra spambots. Es necesario activar Javascript para visualizarla , Phone: +351 22 608 98 55