Severo Ochoa Programme

Research News

  • Two different frames of the galaxy evolution, being an oblate system at early times (left) which is transformed into a prolate spheroid (right) due to a merger. Top: Line of sight velocity map. Bottom: RGB rendering using I, V, B filters.
    In the current cosmological model, galaxies are formed in a hierarchical way, by merging with each other. These mergers can lead to kinematic anomalies that can be used to shed light onto the formation history of the galaxy. However, it is important to be able to distinguish whether these anomalies are an unambiguous signal of a past merger or if they can originate from different processes . One of these kinematic anomalies is prolate rotation. A galaxy shows prolate rotation if it rotates around its major axis. This kinematic characteristic is relatively frequent in massive galaxies and it
    Advertised on
  • Evolutionary history of Leo I. The large panel represents the rate of star formation as a function of time, while the small panel indicates the chemical enrichment in the same time interval. Three vertical lines separate the four periods described in the legend.
    Leo I is one of the youngest dwarf spheroidal (dSph) galaxies in the Local Group. Its relative isolation, extended and complex star formation history (SFH), and recent perigalacticon passage ( ∼ 1 Gyr ago) make of Leo I one of the most interesting nearby stellar systems. We derived its SFH from a deep Hubble Space Telescope colour-magnitude diagram and found that global star formation enhancements in Leo I occurred ∼ 13, 5.5, 2.0, and 1.0 Gyr ago, after which it was substantially quenched, most probably due to ram pressure stripping with the Milky Way halo. We interpreted the most ancient
    Advertised on
  • Cosmic Seahorse
    An international team, including researchers from the Instituto de Astrofísica de Canarias (IAC), used combined data from different radio telescopes located in Spain to probe the mode of star formation in a galaxy when the universe had less than 30% of its current age. They revealed that the properties of the molecular gas reservoir are similar to the one of our own Galaxy, unseen up to now in the distant universe. The paper is published in the Astrophysical Journal Letters. A major question in the study of galaxies is on the mode of star formation, how efficient the conversion of cold gas
    Advertised on
  • GJ 367b illustration. The planet orbits around a red dwarf every 7.7 hours. Its bulk density is close to that of iron, interior structure models predict a similar structure to Mercury’s interior. (Image credit: SPP 1992 (Patricia Klein)).
    Ultrashort-period (USP) exoplanets have orbital periods shorter than 1 day. Precise masses and radii of USP exoplanets could provide constraints on their unknown formation and evolution processes. We report the detection and characterization of the USP planet GJ 367b using high-precision photometry and radial velocity observations. GJ 367b orbits a bright (V-band magnitude of 10.2), nearby, and red (M-type) dwarf star every 7.7 hours. GJ 367b has a radius of 0.718 ± 0.054 Earth-radii and a mass of 0.546 ± 0.078 Earth-masses, making it a sub-Earth planet. The corresponding bulk density is 8
    Advertised on
  • ESPRESSO
    Why does gravity have the strength it has? What exactly determines the value of the electromagnetic force? Are the laws of Physics the same in any part of the universe and at any instant in time? Measurements made with the ESPRESSO high resolution spectrograph on the Very Large Telescope (VLT) have permitted the determination of one of the fundamental constants of Physics when the universe was only 40% of its present age, helping to find an answer to one of these questions. The study, in which a leading group of researchers from the Instituto de Astrofísica de Canarias (IAC) participated, is
    Advertised on
  • GJ 367 b
    An international team, including researchers from the Instituto de Astrofísica de Canarias (IAC), has discovered an extrasolar planet with half the mass of the Earth that takes approximately eight hours to orbit its parent star, a red dwarf just under 31 light-years from Earth. Called GJ 367 b, it is one of the lightest among the nearly 5.000 exoplanets known today. With a diameter of just over 9000 kilometres, this sub-Earth is slightly larger than Mars. The discovery not only demonstrates that it is possible to precisely determine the event the smallest, least massive exoplanets, but also
    Advertised on