Instituto de Física y Astronomía

y Centro de Astrofísica de Valparaíso

  • Astrónomos rockeros se presentarán en Bar Cívico
    16/05/20019 Este viernes 17 de mayo  se viene con un panorama de otro planeta, con el show astronómico de la banda Cósmic Strings integrada por varios investigadores del Instituto de Fisica y Astronomia. La actividad, de entrada liberada, tendrá lugar a las 23:00 horas en el Bar Cívico, ubicado en calle Blanco 1273, Valparaíso, cercano a la estación Bellavista del Metrotren. La música inspirada en planetas y...
    Read more
  • La física y astronomía serán parte de la Feria de la Ciencia UV 2019
    16/05/2019 Como ya es tradición, el viernes 24 de mayo, el Instituto de Física y Astronomía formará parte de la Feria de la Ciencia que cada año la Universidad de Valparaíso realiza para público escolar de la región. El objetivo es  ofrecer   a  escolares y comunidades locales  una muestra  de actividades prácticas de investigación y formación en un espacio académico. Los alumnos tienen la po...
    Read more
  • UV y Calle Larga profundizarán su colaboración gracias a nuevo planetario
    14/05/2019  La comuna de Calle Larga, distante 137 kilómetros de Valparaíso y sólo 75 de Santiago, inicia su despegue como nuevo epicentro astronómico de la zona central del país gracias al desarrollo que ha experimentado el Observatorio Pocuro, ubicado en el Centro Cultural Pedro Aguirre Cerda. Este camino se ha ido pavimentando con la colaboración de la Universidad de Valparaíso, al establecer una...
    Read more
  • Investigadora del IFA será expositora en la escuela de verano sobre pulsaciones estelares en Argentina
    14/05/2019 La Dra Maja Vuckovic participará como expositora en la escuela de verano “Pulsaciones Estelares a lo largo de la evolución estelar” que se llevará a cabo en La Plata, Argentina entre el 11 y el 22 de noviembre. El evento es una de las actividades astronómicas del año destacadas por el Boletín de Estrellas Masivas (Massive Star Newsletter) y se enmarca como parte del proyecto POEMS, Marie Curie Horizon 2020, d...
    Read more
  • Astrónomos logran detección precisa del disco de escombros de estrella de baja masa
    10/05/2019 Utilizando observaciones submilimétricas del disco de escombros alrededor de la estrella debaja masa TWA 7, un grupo internacional de astrónomos liderado por la investigadora del IFA y  Directora del NúcleoMilenio de Formación Planetaria Amelia Bayo, concluyó que la arquitectura asumida para esteobjeto es diferente a lo qu...
    Read more

AstrosismologiaStellar evolution from Pulsations: Hot Subdwarf Stars
My research focuses on observational studies of pulsating hot subdwarf stars with the aim of providing the basis for their asteroseismic analysis. The physical parameters derived by asteroseismology are then used to discriminate between different evolutionary models which is the utmost goal of this research..

Investigator:

Professor:  Maja Vuckovic

Image: Pulsating stars across HR diagram, by Prof. J. Christensen-Dalsgaard

 

Planets and brown dwarfs in close orbits will interact with their host stars, as soon as they evolve to become red giants. However, the outcome of those interactions is still unclear. Recently, several brown dwarfs have been discovered orbiting hot subdwarf stars (sdB) in very short orbital periods of 0.065 - 0.096 d. Those compact helium stars are the stripped cores of the red giant, which lost their envelopes due to the interaction with a close companion. More than 3% of those stars might have close substellar companions. This shows that such companions can significantly affect late stellar evolution and that sdB binaries are ideal objects to study this influence. Currently more than 30 eclipsing sdB binary systems with cool low-mass companions have been discovered.  We are using this unique sample to derive the mass distribution of the companions, constrain  the fraction of substellar companions and determine the minimum mass needed to strip the red-giant of its envelope.  We are especially interested in testing models that predict hot Jupiter planets as possible companions.

Investigators:

Professors: Maja Vuckovic

 

At the beginning of the 60´s, different independent groups of theoretical physicists arrived to the same conclusions: all coincided on the characteristics that a new type of object should have, if its low mass was sufficiently low and possessing a temperature that would not allow it to fuse hydrogen in its nucleus in a stable way. Nevertheless it was only around 1995 that these type of objects were confirmed observationally (three  groups working independently at the same time) and that these theoretically predicted objects did really exist around us. Since then, the availability of instruments that observe in the near, far and mid range infrared (more adequate for observing sub stellar objects) has enabled a veritable explosion of detections of them, usually with temperatures so low as to resemble those of planets. So, fundamental questions like "which are the physical processes that dominate the formation of these objects, or what are the main atmospheric characteristics of the colder sub stellar objects? await yet a definitive answer. In the Instituto de Física y Astronomía we work on giving an observational answer to these and other questions related to brown dwarfs and isolated objects with planetary mass.

The investigators in this area cover:

Subestellar Objects around Evolved Stars

Investigators:

Professors: Matthias Schreiber - Radostin Kurtev - Nikolaus Vogt - Maja Vuckovic - Amelia Bayo

Hot SubdwarfsHot subdwarf stars represent several stages in the late evolution of low-mass stars as they have evolved far beyond the main sequence (MS) and lie between the MS and the white-dwarf (WD) sequence (see figure H-R.jpg).
The booming field of hot subdwarf stars has been enriching our knowledge on very broad and diverse fields of astrophysics, all the way from binary stellar evolution and asteroseismology to planet findings. Hot subdwarfs are directly linked with a number of issues in astrophysics such as the second parameter problem and multiple stellar population puzzles in globular clusters; binary evolution via Roche Lobe Overflow; common envelope evolution; white dwarf mergers and progenitors of SN Ia supernova. On a galactic scale, they seem to be the key for explaining the ultraviolet upturn phenomenon in giant elliptical galaxies and bulges in spiral galaxies.
While these unique stellar laboratories continue to provide remarkable astrophysical findings they still manage to elude us in understanding the most important stellar evolution question, namely, how exactly do they form?   
 
Hot subdwarf stars (spectral type B, and O, shortly sdB and sdO) are extreme horizontal branch stars (EHB) that are low-mass white dwarf (WD) precursors. To date, the precise age and evolutionary history of these stars are unknown. They are core helium burning stars that have exceptionally thin hydrogen envelopes unable to sustain hydrogen shell burning. Therefore, these stars evolve directly to the WD cooling sequence avoiding the asymptotic giant branch (AGB) phase. The mechanism by which they’ve lost their envelopes has been controversial, in particular, how they managed to lose nearly all of their hydrogen at almost exactly the same time as the helium core has attained the minimum mass (∼0.5 M⊙) required for the helium flash to occur?
As a significant fraction of hot subdwarfs are found in binaries various types of close binary interactions are required for their formation, depending on the mass ratio, schemes such as common-envelope ejection (CEE), Roche-lobe overflow (PLOF), and mergers, have been proposed. The fact that they most likely form via binary interactions makes them a valuable testing ground for binary stellar evolution theory.

We are currently involved in several project aiming at deriving the fundamental parameters and backtracing the controversial evolution of hot subdwarfs.

Astroseismology of hot subdwarfs,
- The influence of close substellar companions on late stellar evolution,
- Orbital analysis of short period subdwarf binaries,
- Detecting and characterizing the substellar objects around EHB stars,
- Orbital period distribution of long period subdwarf binaries, in 2009 we initiated a spectroscopic monitoring survey to further populate the period-eccentricity space, and constrain possible eccentricity-pumping mechanisms
- Irradiation effects in HW Vir-type binaries, we are analysing and modelling the irradiated light of the cool M dwarf secondaries in HW Vir-type binaries in order to derive accurate masses of both components and pin down the evolution of these systems. Combining these results with luminosity and astrometric data from Gaia mission to eliminate outliers will make the final assessment on the masses of the EHB stars.

The remaining questions we are interested in are - why some sdB star pulsate while others do not? - why some close binary systems are fully synchronised while others are not? - are planets, recently reported, around hot subdwarfs real? – if so, do planets play an important role in the formation of sdB stars?

If you are also puzzled by any of these questions drop us a note or come and join us!

Investigators:

Professors Maja Vuckovic
Postdocs: Joris Vos

To date more than thousand exoplanets have been detected in the neighbourhood of the Solar System but the precise mechanisms by which planets are formed are still largely unknown. The situation is particularly worrying for giant planets for which two very different formation theories exist, namely core accretion and gravitational instabilities. Planets are formed in circumstellar discs around young stellar objects and the best places to look for signs of planetary formation are the so called "transition" discs. We study the physics of transition discs and the planet formation process using theoretical models as well as observations with ALMA, SPHERE and sparse aperture masking at the VLT, Gemini/GPI, and the Magellan telescopes. We closely collaborate with the compact binary group (also led by M.R. Schreiber) and are part of the Millennium ALMA Disk nucleus.

Investigators:

Professors: Matthias Schreiber
Postdocs:  Claudio Cáceres - Héctor Cánovas
Students: Adam Hardy (PhD) - Daniela Iglesias (PhD)

Former members:

Gisela Romero (Universidad de La Plata, Argentina) - Marianna Orellana (Universidad de La Plata, Argentina)

Weather Forecast

Next UV Public Talk

No events

Next Astrophysics Sem.

No events