An unprecedented view of two hundred galaxies of the local Universe


The second data release of the international project CALIFA - a survey of galaxies carried out at Calar Alto observatory – will take place today.

Performed at Calar Alto, CALIFA reaffirms to Calar Alto as a very competitive worldwide astronomical facility and highly productive.

Almería, October the 1st 2014. Galaxies are the result of an evolutionary process started thousands of million years ago, and their history is coded in their distinct components. The CALIFA project is intended to decode the galaxies' history in a sort of galactic archaeology, through the 3D observations of a sample of six hundred galaxies. With this second data release corresponding to two hundred galaxies, the project reaches its halfway point with important results behind.

"The data corresponding to the hundred galaxies included in the first data release of November 2012 have already been downloaded more than seven thousand times and they have produced a wide variety of results, both from inside and outside the CALIFA collaboration – underlines Sebastián Sánchez, principal investigator of the project. With more than thirty peer review publications, more than hundred contributions to scientific meetings and five PhD theses already submitted, this project of the most productive among those ever carried out at Calar Alto. This data release is a new milestone of the project, which already can be considered an international reference in the field of extragalactic surveys".


The CALIFA Project allows not only to inspect the galaxies in detail, but it also provides with data on the evolution of each particular galaxy with time: how much gas and when was it converted into stars along each phase of the galaxy's life, and how did each region of the galaxies evolve along the more than ten thousand million years of cosmic evolution.

Thanks to the CALIFA data, the astronomers have been able to deduce the history of the mass, luminosity and chemical evolution of the CALIFA sample of galaxies, and thus they have found that more massive galaxies grow faster than less massive ones, and that they form their central regions before the external ones (inside-out mass assembly).

CALIFA has also shed light on how chemical elements needed for file are produced within the galaxies or on the physical processes involved on galactic collisions, and it has even observed the last generation of stars still in their birth cocoon.

This second data release is an important milestone for the CALIFA collaboration, and it represents a great success for Calar Alto, supporting the observatory as a highly efficient and competitive astronomical facility worldwide", says Dr. Jesús Aceituno, deputy director of the observatory.


The CALIFA Project, conceived at the IAA-CSIC and carried out at Calar Alto observatory, combines the advantages of two observational techniques: imaging - that provides detailed information on galactic structure - and spectroscopy – that reveals the physical properties of galaxies (kinematics, mass, chemical composition, age, etc).

CALIFA makes use of the IFS technology – Integral Field Spectroscopy – that allows obtaining some one thousand spectra per galaxy, what has resulted in a panoramic view of galaxies. It is the first IFS study explicitly designed as a legacy project, and after completion it will be the greatest IFS study ever accomplished. This project, unique in the world, has been possible thanks to the combination of the collecting power of the 3.5m telescope at Calar Alto, to the large field-of-view of its spectrograph PMAS/PPAK, and to the granting of 250 observing nights offered by the owner institutions CSIC and MPG.

Calar Alto observatory is operated jointly by the Instituto de Astrofísica de Andalucía (IAA-CSIC, Granada Spain) and the Max-Planck-Institut für Astronomie (MPIA, Heidelberg, Germany). The observatory grants two hundred observing nights (along three years) for the CALIFA survey with the 3.5m reflector Telescope, and it supports the data acquisition, reduction and storage.

Project website: