Your search keyword '"García-Berro, Enrique"' showing total 23 results

1. Number Counts of White Dwarfs: The Impact of GAIA

Author

Garcia-Berro, Enrique, Torres, Santiago, Figueras, Francesca, Isern, Jordi, Sion, Edward M., editor, Vennes, Stéphane, editor, and Shipman, Harry L., editor

Published

2005

2. The evolution of ultra-massive white dwarfs.

Author

Camisassa, María E., Althaus, Leandro G., Córsico, Alejandro H., De Gerónimo, Francisco C., Miller Bertolami, Marcelo M., Novarino, María L., Rohrmann, René D., Wachlin, Felipe C., and García-Berro, Enrique

Subjects

WHITE dwarf stars, TYPE I supernovae, PHASE separation, ATMOSPHERIC models, PHASE diagrams

Abstract

Ultra-massive white dwarfs are powerful tools used to study various physical processes in the asymptotic giant branch (AGB), type Ia supernova explosions, and the theory of crystallization through white dwarf asteroseismology. Despite the interest in these white dwarfs, there are few evolutionary studies in the literature devoted to them. Here we present new ultra-massive white dwarf evolutionary sequences that constitute an improvement over previous ones. In these new sequences we take into account for the first time the process of phase separation expected during the crystallization stage of these white dwarfs by relying on the most up-to-date phase diagram of dense oxygen/neon mixtures. Realistic chemical profiles resulting from the full computation of progenitor evolution during the semidegenerate carbon burning along the super-AGB phase are also considered in our sequences. Outer boundary conditions for our evolving models are provided by detailed non-gray white dwarf model atmospheres for hydrogen and helium composition. We assessed the impact of all these improvements on the evolutionary properties of ultra-massive white dwarfs, providing updated evolutionary sequences for these stars. We conclude that crystallization is expected to affect the majority of the massive white dwarfs observed with effective temperatures below 40 000 K. Moreover, the calculation of the phase separation process induced by crystallization is necessary to accurately determine the cooling age and the mass-radius relation of massive white dwarfs. We also provide colors in the Gaia photometric bands for our H-rich white dwarf evolutionary sequences on the basis of new model atmospheres. Finally, these new white dwarf sequences provide a new theoretical frame to perform asteroseismological studies on the recently detected ultra-massive pulsating white dwarfs. [ABSTRACT FROM AUTHOR]

Published

2019

3. Probing the internal rotation of pre-white dwarf stars with asteroseismology : the case of PG 0122+200

Author

Córsico, Alejandro Hugo, Althaus, Leandro Gabriel, Kawaler, Steven D., Bertolami, Marcelo Miguel Miller, García-Berro, Enrique, and Kepler, Souza Oliveira

Subjects

Rotacao estelar, rotation [Stars], Anãs brancas, oscillations [Stars], Evolucao estelar, interiors [Stars], evolution [Stars], individual: PG 0122+200 [Stars], White dwarfs, Interior estelar

Abstract

We put asteroseismological constraints on the internal rotation profile of theGWVir (PG1159- type) star PG 0122+200. To this end we employ a state-of-the-art asteroseismological model for this star and assess the expected frequency splittings induced by rotation adopting a forward approach in which we compare the theoretical frequency separations with the observed ones assuming different types of plausible internal rotation profiles. We also employ two asteroseismological inversion methods for the inversion of the rotation profile of PG 0122+200.We find evidence for differential rotation in this star.We demonstrate that the frequency splittings of the rotational multiplets exhibited by PG 0122+200 are compatible with a rotation profile in which the central regions are spinning about 2.4 times faster than the stellar surface.

Published

2011

4. Hot C-rich white dwarfs: testing the transition DB-DQ through pulsations

Author

Corsico, Alejandro Hugo, Romero, Alejandra Daniela, Althaus, Leandro Gabriel, and García Berro, Enrique

Subjects

Astronomía, purl.org/becyt/ford/1 [https], Interior stars, Oscillations, Ciencias Físicas, White dwarfs, purl.org/becyt/ford/1.3 [https], Evolution of stars, CIENCIAS NATURALES Y EXACTAS

Abstract

Context. Hot DQ white dwarfs are a new class of white dwarf stars that were discovered recently within the framework of the SDSS project. There are nine known hot DQ stars, out of a total of several thousands white dwarfs spectroscopically identified. Three hot DQ white dwarfs have been reported to exhibit photometric variability with periods compatible with pulsation g-modes. Aims. We present a nonadiabatic pulsation analysis of carbon-rich hot DQ white dwarf stars. One of our main aims is to test the convective-mixing scenario for the origin of hot DQs by studying their pulsational properties. Methods. Our pulsation study is based on the full evolutionary models of hot DQ white dwarfs developed by Althaus and collaborators, which consistently cover the entire evolution from the born-again stage to the white dwarf cooling track. Specifically, we present a stability analysis of white dwarf models from stages before the blue edge of the DBV instability strip ( ≈ 30 000 K), until the domain of the hot DQ white dwarfs (18 000-24 000 K), including the transition DBhot DQ white dwarf. We explore evolutionary models with M* = 0.585 and M* = 0.87 , and two values of the thickness of the He-rich envelope ( = 210-7 M* and = 10-8 M*). These envelopes are 4–5 orders of magnitude thinner than those of standard DB white dwarf models resulting from canonical stellar evolution computations. Results. We found that at evolutionary phases in which the models are characterized by He-dominated atmospheres, they exhibit unstable g-mode pulsations typical of DBV stars, and when the models become DQ white dwarfs with carbon-dominated atmospheres, they continue being pulsationally unstable with characteristics similar to DB models, and in agreement with the periods detected in variable hot DQ white dwarfs. In particular, for models with = 10-8 M*, a narrow gap exists separating the DB from the DQ instability domains. Conclusions. Our calculations provide strong support for the convective-mixing picture of the formation of hot DQs. In particular, our results suggest the existence of pulsating DB white dwarfs with very thin He-rich envelopes, which after passing the DBV instability strip become variable hot DQ stars. The existence of these DB stars with very thin envelopes should be investigated by asteroseismology. Fil: Corsico, Alejandro Hugo. Universidad Nacional de La Plata. Facultad de Ciencias Astronómicas y Geofísicas; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Astrofísica La Plata. Universidad Nacional de La Plata. Facultad de Ciencias Astronómicas y Geofísicas. Instituto de Astrofísica La Plata; Argentina Fil: Romero, Alejandra Daniela. Universidad Nacional de La Plata. Facultad de Ciencias Astronómicas y Geofísicas; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de Astrofísica La Plata. Universidad Nacional de La Plata. Facultad de Ciencias Astronómicas y Geofísicas. Instituto de Astrofísica La Plata; Argentina Fil: Althaus, Leandro Gabriel. Universidad Nacional de La Plata. Facultad de Ciencias Astronómicas y Geofísicas; Argentina. Universidad Politécnica de Catalunya; España Fil: García Berro, Enrique. Universidad Politécnica de Catalunya; España

Published

2009

5. New evolutionary sequences for hot h-deficient white dwarfs on the basis of a full account of progenitor evolution

Author

Althaus, Leandro Gabriel, Panei, Jorge Alejandro, Bertolami, Marcelo Miguel Miller, García-Berro, Enrique, Córsico, Alejandro Hugo, Romero, Alejandra Daniela, Kepler, Souza Oliveira, and Rohrmann, R. D.

Subjects

Anãs brancas, abundances [Stars], Evolucao estelar, interiors [Stars], evolution [Stars], White dwarfs, Composicao estelar, Massa estelar, AGB and post-ABG [Stars], Interior estelar, Estrelas supergigantes, variables: other [Stars]

Abstract

We present full evolutionary calculations appropriate for the study of hot hydrogen-deficient DO white dwarfs, PG 1159 stars, and DB white dwarfs. White dwarf sequences are computed for a wide range of stellar masses and helium envelopes on the basis of a complete treatment of the evolutionary history of progenitors stars, including the core hydrogen and helium burning phases, the thermally pulsing asymptotic giant branch phase, and the born-again episode that is responsible for the hydrogen deficiency.We also provide colors and magnitudes for the newsequences for Teff < 40,000 K, where the NLTE effects are not dominant. These new calculations provide a homogeneous set of evolutionary tracks appropriate formass and age determinations for both PG1159 stars andDOwhite dwarfs. The calculations are extended down to an effective temperature of 7000 K. We applied these new tracks to redetermine stellar masses and ages of all known DO white dwarfs with spectroscopically determined effective temperatures and gravities, and compare them with previous results.We also compare for the first time consistent mass determinations for both DO and PG 1159 stars, and find a considerably higher mean mass for the DO white dwarfs. We discuss as well the chemical profile expected in the envelope of variable DB white dwarfs from the consideration of the evolutionary history of progenitor stars. Finally, we present tentative evidence for a different evolutionary channel, other than that involving the PG 1159 stars, for the formation of hot, hydrogen-deficient white dwarfs.

Published

2009

6. White dwarf dynamical interactions and fast optical transients.

Author

García-Berro, Enrique, Badenes, Carles, Aznar-Siguán, Gabriela, and Lorén-Aguilar, Pablo

Subjects

*WHITE dwarf stars, *OPTICAL transient phenomena, *SUPERNOVAE, *STELLAR luminosity function, *TIME-domain analysis

Abstract

Recent advances in time-domain astronomy have uncovered a new class of optical transients with time-scales shorter than typical supernovae and a wide range of peak luminosities. Several subtypes have been identified within this broad class, including Ca-rich transients, Type Ia supernovae (SNe Ia) and fast/bright transients. We examine the predictions from a state-of-the-art grid of three-dimensional simulations of dynamical white dwarf interactions in the context of these fast optical transients. We find that for collisions involving carbon–oxygen or oxygen–neon white dwarfs, the peak luminosities and durations of the light curves in our models are in good agreement with the properties of fast/bright transients. When one of the colliding white dwarfs is made of helium, the properties of the light curves are similar to those of Ca-rich gap transients. The model light curves from our white dwarf collisions are too slow to reproduce those of SNe Ia, and too fast to match any normal or peculiar SNe Ia. [ABSTRACT FROM AUTHOR]

Published

2017

7. Is the central binary system of the planetary nebula Henize 2–428 a type Ia supernova progenitor?

Author

García–Berro, Enrique, Soker, Noam, Althaus, Leandro G., Ribas, Ignasi, and Morales, Juan C.

Subjects

*BINARY systems (Astronomy), *PLANETARY nebulae, *SUPERNOVAE, *WHITE dwarf stars, *ASTRONOMICAL research

Abstract

We critically discuss the recent observations of the binary system at the center of the bipolar planetary nebula Henize 2–428. We find that the proposed explanation of two equal-mass degenerate objects with a total mass larger than the Chandrasekhar limiting mass that supposedly will merge in less than a Hubble time, possibly leading to a SN Ia, is controversial. This hypothesis relies on the assumption that the variability of the He II 5412 Å spectral line is due to two absorption components. Instead, we propose that it can be accounted for by a broad absorption line from the central system on top of which there is a narrow emission line from the nebula. This prompted us to study if the binary system can be made of a degenerate star and a low-mass main sequence companion, or of two degenerate objects of smaller mass. We find that although both scenarios can account for the existence of two symmetric broad minima in the light curve, the second one agrees better with observations. We thus argue that the claim that Henize 2–428 provides observational evidence supporting the double-degenerate scenario for SN Ia is premature. [ABSTRACT FROM AUTHOR]

Published

2016

8. The white dwarf population of NGC 6397.

Author

Torres, Santiago, García-Berro, Enrique, Althaus, Leandro G., and Camisassa, María E.

Subjects

*WHITE dwarf stars, *STELLAR populations, *GLOBULAR clusters, *STELLAR luminosity function, *AGE of stars

Abstract

Context. NGC 6397 is one of the most interesting, well-observed, and most thoroughly theoretically studied globular clusters. The existing wealth of observations allows us to study the reliability of the theoretical white dwarf cooling sequences of low-metallicity progenitors, to determine the age of NGC 6397 and the percentage of unresolved binaries. We also assess other important characteristics of the cluster, such as the slope of the initial mass function or the fraction of white dwarfs with hydrogen-deficient atmospheres. Aims. We present a population synthesis study of the white dwarf population of NGC 6397. In particular, we study the shape of the color-magnitude diagram and the corresponding magnitude and color distributions. Methods. To do this, we used an advanced Monte Carlo code that incorporates the most recent and reliable cooling sequences and an accurate modeling of the observational biases. Results. Our theoretical models and the observed data agree well. In particular, we find that this agreement is best for those cooling sequences that take into account residual hydrogen burning. This result has important consequences for the evolution of progenitor stars during the thermally pulsing asymptotic giant branch phase, since it implies that appreciable third dredge-up in low-mass, low-metallicity progenitors is not expected to occur. Using a standard burst duration of 1.0 Gyr, we obtain that the age of the cluster is 12.8+0.50 -0.75 Gyr. Greater ages are also compatible with the observed data, but then unrealistic longer durations of the initial burst of star formation are needed to fit the luminosity function. Conclusions. We conclude that a correct modeling of the white dwarf population of globular clusters, used in combination with the number counts of main-sequence stars, provides a unique tool for modeling the properties of globular clusters. [ABSTRACT FROM AUTHOR]

Published

2015

9. Revisiting the luminosity function of single halo white dwarfs.

Author

Cojocaru, Ruxandra, Torres, Santiago, Althaus, Leandro G., Isern, Jordi, and García-Berro, Enrique

Subjects

WHITE dwarf stars, STELLAR luminosity function, GALACTIC halos, MONTE Carlo method, STELLAR initial mass function, SPHEROIDAL functions

Abstract

Context. White dwarfs are the fossils left by the evolution of low- and intermediate-mass stars, and have very long evolutionary timescales. This allows us to use them to explore the properties of old populations, like the Galactic halo. Aims. We present a population synthesis study of the luminosity function of halo white dwarfs, aimed at investigating which information can be derived from the currently available observed data. Methods. We employ an up-to-date population synthesis code based on Monte Carlo techniques, which incorporates the most recent and reliable cooling sequences for metal-poor progenitors as well as an accurate modeling of the observational biases. Results. We find that because the observed sample of halo white dwarfs is restricted to the brightest stars, only the hot branch of the white dwarf luminosity function can be used for these purposes, and that its shape function is almost insensitive to the most relevant inputs, such as the adopted cooling sequences, the initial mass function, the density profile of the stellar spheroid, or the adopted fraction of unresolved binaries. Moreover, since the cutoff of the observed luminosity has not yet been determined only the lower limits to the age of the halo population can be placed. Conclusions. We conclude that the current observed sample of the halo white dwarf population is still too small to obtain definite conclusions about the properties of the stellar halo, and the recently computed white dwarf cooling sequences, which incorporate residual hydrogen burning, should be assessed using metal-poor globular clusters. [ABSTRACT FROM AUTHOR]

Published

2015

10. Constraining the double-degenerate scenario for Type Ia supernovae from merger ejected matter.

Author

Levanon, Naveh, Soker, Noam, and García-Berro, Enrique

Subjects

TYPE I supernovae, BINARY stars, ACCRETION (Astrophysics), ACCRETION disks, WHITE dwarf stars

Abstract

We follow the mass expelled during the WD–WD merger process in a particular case of the double-degenerate (DD) scenario for Type Ia supernovae (SNe Ia), and find that the interaction of the SN ejecta with the resulting wind affects the early (first day) light-curve in a way that may be in conflict with some SN Ia observations, if the detonation occurs shortly after the merger, i.e. (103 s ≲ texp ≲ 1 d). The main source of the expelled mass is a disc-wind, or jets that are launched by the accretion disc around the more massive white dwarf (WD) during the viscous phase of the merger. This disc-originated matter will be shocked and heated by the SN ejecta from an explosion, leading to additional radiation in the early light-curve. This enhanced early radiation could then be interpreted as an explosion originating from a progenitor having an inferred radius of one solar radius or more, in conflict with observations of SN 2011fe. [ABSTRACT FROM AUTHOR]

Published

2015

11. The white dwarf cooling sequence of 47 Tucanae.

Author

García-Berro, Enrique, Torres, Santiago, Althaus, Leandro G., and Bertolami, Marcelo M. Miller

Subjects

*WHITE dwarf stars, *GLOBULAR clusters, *STELLAR evolution, *STAR formation, *STELLAR luminosity function

Abstract

Context. 47 Tucanae is one of the most interesting, well-observed, and theoretically studied globular clusters. This allows us to determine the reliability of our understanding of white dwarf cooling sequences, to compare different methods of determining its age, and to assess other important characteristics, such as its star formation history. Aims. Here we present a population synthesis study of the cooling sequence of the globular cluster 47 Tucanae. In particular, we study the distribution of effective temperatures, the shape of the color-magnitude diagram, and the corresponding magnitude and color distributions. Methods. To do this, we used an up-to-date population synthesis code based on Monte Carlo techniques that incorporates the most recent and reliable cooling sequences and an accurate modeling of the observational biases. Results. Our theoretical models and the observed data agree well. Thus, our study disproves previous claims that there are still missing physics in the white dwarf cooling models at moderately high effective temperatures. We also derive the age of the cluster using the termination of the cooling sequence and obtain a good agreement with the age determinations made using the main-sequence turnoff. Finally, the star formation history of the cluster is compatible with that obtained using main-sequence stars, which predicts two distinct populations. Conclusions. We conclude that a correct modeling of the white dwarf population of globular clusters, used in combination with the number counts of main -sequence stars, provides a unique tool to model the properties of globular clusters. [ABSTRACT FROM AUTHOR]

Published

2014

12. The effects of metallicity on the Galactic disk population of white dwarfs.

Author

Cojocaru, Ruxandra, Torres, Santiago, Isern, Jordi, and García-Berro, Enrique

Subjects

WHITE dwarf stars, STELLAR populations, MONTE Carlo method, DISKS (Astrophysics), STELLAR luminosity function, GALACTIC evolution

Abstract

Context. It has been known for a long time that stellar metallicity plays a significant role in the determination of the ages of the different Galactic stellar populations, when main sequence evolutionary tracks are employed. Aims. Here, we analyze the role that metallicity plays on the white dwarf luminosity function of the Galactic disk, which is often used to determine its age. Methods. We employ a Monte Carlo population synthesis code that accounts for the properties of the population of Galactic disk white dwarfs. Our code incorporates the most up-to-date evolutionary cooling sequences for white dwarfs with hydrogen-rich and hydrogen-deficient atmospheres for both carbon-oxygen and oxygen-neon cores. We use two different models to assess the evolution of the metallicity: the first, where the adopted metallicity is constant with time but with a moderate dispersion, and the second where the metallicity increases with time. Results. We found that our theoretical results are in a very satisfactory agreement with the observational luminosity functions obtained from the Sloan Digital Sky Survey (SDSS) and from the SuperCOSMOS Sky Survey (SSS). These results are independent of the adopted age-metallicity law. In particular, we found that the age-metallicity law has no noticeable impact in shaping the bright branch of the white dwarf luminosity function and that the position of its cut-off is almost insensitive to the adopted age-metallicity relationship. Conclusions. Because the shape of the bright branch of the white dwarf luminosity function is insensitive to the age-metallicity law, it can be safely employed to test the theoretical evolutionary sequences, while its location provides a robust indicator of the age of the Galactic disk due to the limited sensitivity of the position of the drop-off to the distribution of metallicities. [ABSTRACT FROM AUTHOR]

Published

2014

13. Monte Carlo simulations of post-common-envelope white dwarf + main sequence binaries: comparison with the SDSS DR7 observed sample.

Author

Camacho, Judit, Torres, Santiago, García–Berro, Enrique, Zorotovic, Mónica, Schreiber, Matthias R., Rebassa-Mansergas, Alberto, Gómez–Morán, Ada Nebot, and Gänsicke, Boris T.

Subjects

MONTE Carlo method, WHITE dwarf stars, BINARY stars, STELLAR populations, ROCHE equipotentials, BINARY systems (Astronomy)

Abstract

Context. Detached white dwarf + main sequence (WD+MS) systems represent the simplest population of post-common envelope binaries (PCEBs). Since the ensemble properties of this population carries important information about the characteristics of the common-envelope (CE) phase, it deserves close scrutiny. However, most population synthesis studies do not fully consider the effects of the observational selection biases of the samples used to compare with the theoretical simulations. Aims. Here we present the results of a set of detailed Monte Carlo simulations of the population of WD+MS binaries in the Sloan Digital Sky Survey (SDSS) Data Release 7. Methods. We used up-to-date stellar evolutionary models, a complete treatment of the Roche lobe overflow episode, and a full implementation of the orbital evolution of the binary systems. Moreover, in our treatment we took the selection criteria and all the known observational biases into account. Results. Our population synthesis study allowed us to make a meaningful comparison with the available observational data. In particular, we examined the CE efficiency, the possible contribution of internal energy, and the initial mass ratio distribution (IMRD) of the binary systems. We find that our simulations correctly reproduce the properties of the observed distribution of WD+MS PCEBs. In particular, we find that once the observational biases are carefully considered, the distribution of orbital periods and of masses of the WD and MS stars can be correctly reproduced for several choices of the free parameters and different IMRDs, although models in which a moderate fraction (≤10%) of the internal energy is used to eject the CE and in which a low value of CE efficiency is used (≤0.3) seem to fit the observational data better. We also find that systems with He-core WDs are over-represented in the observed sample, because of selection effects. Conclusions. Although our study represents an important step forward in modeling the population of WD+MS PCEBs, the still scarce observational data preclude deriving a precise value of the several free parameters used to compute the CE phase without ambiguity or ascertaining which the correct IMRD might be. [ABSTRACT FROM AUTHOR]

Published

2014

14. THE POST-MERGER MAGNETIZED EVOLUTION OF WHITE DWARF BINARIES: THE DOUBLE-DEGENERATE CHANNEL OF SUB-CHANDRASEKHAR TYPE Ia SUPERNOVAE AND THE FORMATION OF MAGNETIZED WHITE DWARFS.

Author

SUOQING JI, FISHER, ROBERT T., GARCÍA-BERRO, ENRIQUE, TZEFERACOS, PETROS, JORDAN, GEORGE, DONGWOOK LEE, LORÉN-AGUILAR, PABLO, CREMER, PASCAL, and BEHRENDS, JAN

Subjects

TYPE I supernovae, WHITE dwarf stars, BINARY stars, MAGNETIC field effects, MAGNETIZATION

Abstract

Type Ia supernovae (SNe Ia) play a crucial role as standardizable cosmological candles, though the nature of their progenitors is a subject of active investigation. Recent observational and theoretical work has pointed to merging white dwarf binaries, referred to as the double-degenerate channel, as the possible progenitor systems for some SNe Ia. Additionally, recent theoretical work suggests that mergers which fail to detonate may produce magnetized, rapidly rotating white dwarfs. In this paper, we present the first multidimensional simulations of the post-merger evolution of white dwarf binaries to include the effect of the magnetic field. In these systems, the two white dwarfs complete a final merger on a dynamical timescale, and are tidally disrupted, producing a rapidly rotating white dwarf merger surrounded by a hot corona and a thick, differentially rotating disk. The disk is strongly susceptible to the magnetorotational instability (MRI), and we demonstrate that this leads to the rapid growth of an initially dynamically weak magnetic field in the disk, the spin-down of the white dwarf merger, and to the subsequent central ignition of the white dwarf merger. Additionally, these magnetized models exhibit new features not present in prior hydrodynamic studies of white dwarf mergers, including the development of MRI turbulence in the hot disk, magnetized outflows carrying a significant fraction of the disk mass, and the magnetization of the white dwarf merger to field strengths ∼2 × 108 G. We discuss the impact of our findings on the origins, circumstellar media, and observed properties of SNe Ia and magnetized white dwarfs. [ABSTRACT FROM AUTHOR]

Published

2013

15. DOUBLE DEGENERATE MERGERS AS PROGENITORS OF HIGH-FIELD MAGNETIC WHITE DWARFS.

Author

GARCÍA-BERRO, ENRIQUE, LORÉN-AGUILAR, PABLO, AZNAR-SIGUÁN, GABRIELA, TORRES, SANTIAGO, CAMACHO, JUDIT, ALTHAUS, LEANDRO G., CÓRSICO, ALEJANDRO H., KÜLEBI, BAYBARS, and ISERN, JORDI

Subjects

*STELLAR magnetic fields, *STELLAR rotation, *STELLAR evolution, *WHITE dwarf stars, *MONTE Carlo method

Abstract

High-field magnetic white dwarfs have been long suspected to be the result of stellar mergers. However, the nature of the coalescing stars and the precise mechanism that produces the magnetic field are still unknown. Here, we show that the hot, convective, differentially rotating corona present in the outer layers of the remnant of the merger of two degenerate cores can produce magnetic fields of the required strength that do not decay for long timescales. Using a state-of-the-artMonte Carlo simulator, we also show that the expected number of high-field magnetic white dwarfs produced in this way is consistent with that found in the solar neighborhood. [ABSTRACT FROM AUTHOR]

Published

2012

16. Classical and Recurrent Nova Models.

Author

José, Jordi, Casanova, Jordi, García–Berro, Enrique, Hernanz, Margarita, Shore, Steven N., and Calder, Alan C.

Abstract

Remarkable progress in the understanding of nova outbursts has been achieved through combined efforts in photometry, spectroscopy and numerical simulations. According to the thermonuclear runaway model, novae are powered by thermonuclear explosions in the hydrogen-rich envelopes transferred from a low-mass stellar companion onto a close white dwarf star. Extensive numerical simulations in 1-D have shown that the accreted envelopes attain peak temperatures ranging between 108 and 4 × 108 K, for about several hundred seconds, hence allowing extensive nuclear processing which eventually shows up in the form of nucleosynthetic fingerprints in the ejecta. Indeed, it has been claimed that novae can play a certain role in the enrichment of the interstellar medium through a number of intermediate-mass elements. This includes 17O, 15N, and 13C, systematically overproduced with respect to solar abundances, plus a lower contribution in a number of other species (A < 40), such as 7Li, 19F, or 26Al. At the turn of the XXI Century, classical novae have entered the era of multidimensional models, which provide a new insight into the physical mechanisms that drive mixing at the core-envelope interface.In this review, we will present hydrodynamic models of classical novae, from the onset of accretion up to the explosion and ejection stages, both for classical and recurrent novae, with special emphasis on their gross observational properties and their associated nucleosynthesis. The impact of nuclear uncertainties on the final yields will be discussed. Recent results from 2-D models of mixing during classical nova outbursts will also be presented. [ABSTRACT FROM PUBLISHER]

Published

2011

17. The white dwarf luminosity function – II. The effect of the measurement errors and other biases.

Author

Torres, Santiago, García-Berro, Enrique, and Isern, Jordi

Subjects

*WHITE dwarf stars, *STELLAR luminosity function, *MEASUREMENT errors, *KINEMATICS, *MONTE Carlo method

Abstract

The disc white dwarf luminosity function is an important tool for studying the solar neighbourhood, since it allows the determination of several Galactic parameters, the most important one being the age of the Galactic disc. However, only the method has been employed so far for observationally determining the white dwarf luminosity function, whereas for other kind of luminosity functions several other methods have been frequently used. Moreover, the procedures to determine the white dwarf luminosity function are not free of biases. These biases have two different origins: they can either be of statistical nature or a consequence of the measurement errors. In a previous paper we carried out an in-depth study of the first category of biases for several luminosity function estimators. In this paper we focus on the biases introduced by the measurement errors and on the effects of the degree of contamination of the input sample used to build the disc white dwarf luminosity function by different kinematical populations. To assess the extent of these biases we use a Monte Carlo simulator to generate a controlled synthetic population and analyse the behaviour of the disc white dwarf luminosity function for several assumptions about the magnitude of the measurement errors and for several degrees of contamination, comparing the performances of the most robust luminosity function estimators under such conditions. [ABSTRACT FROM AUTHOR]

Published

2007

18. The white dwarf luminosity function – I. Statistical errors and alternatives.

Author

Geijo, Enrique M., Torres, Santiago, Isern, Jordi, and García-Berro, Enrique

Subjects

STARS, STATISTICS, STELLAR luminosity function, WHITE dwarf stars, GALAXIES, MONTE Carlo method

Abstract

The white dwarf luminosity function is an important tool for the study of the solar neighbourhood, since it allows the determination of the age of the Galactic disc. Over the years, several methods have been proposed to compute galaxy luminosity functions, from the most simple ones – counting sample objects inside a given volume – to very sophisticated ones – like the C− method, the STY method or the Choloniewski method, among others. However, only the method is usually employed in computing the white dwarf luminosity function and other methods have not been applied so far to the observational sample of spectroscopically identified white dwarfs – in sharp contrast with the situation when galaxy luminosity functions are derived from a large variety of samples. Moreover, the statistical significance of the white dwarf luminosity function has also received little attention and a thorough study still remains to be done. In this paper, we study, using a controlled synthetic sample of white dwarfs generated using a Monte Carlo simulator, which is the statistical significance of the white dwarf luminosity function and which are the expected biases. We also present a comparison between different estimators for computing the white dwarf luminosity function. We find that for sample sizes large enough the method provides a reliable characterization of the white dwarf luminosity function, provided that the input sample is selected carefully. Particularly, the method recovers well the position of the cut-off of the white dwarf luminosity function. However, this method turns out to be less robust than the Choloniewski method when the possible incompletenesses of the sample are taken into account. We also find that the Choloniewski method performs better than the method in estimating the overall density of white dwarfs, but misses the exact location of the cut-off of the white dwarf luminosity function. [ABSTRACT FROM AUTHOR]

Published

2006

19. AN UPPER LIMIT TO THE VARIATION OF G FROM THE WHITE DWARF COOLING SEQUENCE OF NGC 6791.

Author

GARCíA-BERRO, ENRIQUE, TORRES, SANTIAGO, LORÉN-AGUILAR, PABLO, ISERN, JORDI, and ALTHAUS, LEANDRO G.

Subjects

*GRAVITATIONAL constant, *COSMOCHRONOLOGY, *WHITE dwarf stars, *COOLING, *STELLAR evolution

Published

2015

20. Simulating Gaia performances on white dwarfs.

Author

Torres, Santiago, García-Berro, Enrique, Isern, Jordi, and Figueras, Francesca

Subjects

*WHITE dwarf stars, *ARTIFICIAL satellites, *ASTRONOMICAL photometry, *MILKY Way, *STAR formation, *STELLAR luminosity function

Abstract

One of the most promising space missions of the European Space Agency is the astrometric satellite Gaia, which will provide very precise astrometry and multicolour photometry, for all 1.3 billion objects to , and radial velocities with accuracies of a few km s−1 for most stars brighter than . Consequently, full homogeneous six-dimensional phase-space information for a huge number of stars will become available. Our Monte Carlo simulator has been used to estimate the number of white dwarfs potentially observable by Gaia. From this we assess the white dwarf luminosity functions that Gaia will obtain and discuss in depth the scientific returns of Gaia in the specific field of white dwarf populations. Scientifically attainable goals include, among others, a reliable determination of the age of the Galactic disc, a better knowledge of the halo of the Milky Way and the reconstruction of the star formation history of the Galactic disc. Our results also demonstrate the potential impact of a mission such as Gaia within the context of current understanding of white dwarf cooling theory. [ABSTRACT FROM AUTHOR]

Published

2005

21. Using self-organizing maps to identify potential halo white dwarfs

Author

García-Berro, Enrique, Torres, Santiago, and Isern, Jordi

Subjects

*SELF-organizing maps, *WHITE dwarf stars

Abstract

We present the results of an unsupervised classification of the disk and halo white dwarf populations in the solar neighborhood. The classification is done by merging the results of detailed Monte Carlo (MC) simulations, which reproduce very well the characteristics of the white dwarf populations in the solar neighborhood, with a catalogue of real stars. The resulting composite catalogue is analyzed using a competitive learning algorithm. In particular we have used the so-called self-organized map. The MC simulated stars are used as tracers and help in identifying the resulting clusters. The results of such an strategy turn out to be quite satisfactory, suggesting that this approach can provide an useful framework for analyzing large databases of white dwarfs with well determined kinematical, spatial and photometric properties once they become available in the next decade. Moreover, the results are of astrophysical interest as well, since a straightforward interpretation of several recent astronomical observations, like the detected microlensing events in the direction of the Magellanic Clouds, the possible detection of high proper motion white dwarfs in the Hubble Deep Field and the discovery of high velocity white dwarfs in the solar neighborhood, suggests that a fraction of the baryonic dark matter component of our galaxy could be in the form of old and dim halo white dwarfs. [Copyright &y& Elsevier]

Published

2003

22. High-proper-motion white dwarfs and halo dark matter.

Author

Torres, Santiago, García-Berro, Enrique, Burkert, Andreas, and Isern, Jordi

Subjects

*WHITE dwarf stars, *REDSHIFT

Abstract

Abstract The interpretation of the old, cool white dwarfs recently found by Oppenheimer et al. is still controversial. Whereas these authors claim that they have finally found the elusive ancient-halo white dwarf population that contributes significantly to the mass budget of the galactic halo, there have been several other contributions that argue that these white dwarfs are not genuine halo members but, instead, thick-disc stars. We show here that the interpretation of this sample is based on the adopted distances, which are obtained from a colour–magnitude calibration, and we demonstrate that when the correct distances are used a sizeable fraction of these putative halo white dwarfs belong indeed to the disc population. We also perform a maximum likelihood analysis of the remaining set of white dwarfs and we find that they most probably belong to the thick-disc population. However, another possible explanation is that this sample of white dwarfs has been drawn from a 1:1 mixture of the halo and disc white dwarf populations. [ABSTRACT FROM AUTHOR]

Published

2002

23. The impact of a merger episode in the galactic disc white dwarf population.

Author

Torres, Santiago, García-Berro, Enrique, Burkert, Andreas, and Isern, Jordi

Subjects

*WHITE dwarf stars, *STELLAR luminosity function, *SPECTRUM analysis

Abstract

In this paper we analyse the consequences in the white dwarf population of a hypothetical merger episode in our Galactic disc. We have studied several different merging scenarios with our Monte Carlo simulator. For each one of these scenarios we have derived the main characteristics of the resulting white dwarf population and we have compared them with the available observational data, namely the white dwarf luminosity function and the kinematic properties of the white dwarf population. Our results indicate that very recent (less than ∼6 Gyr ago) and massive (∼16 per cent of the mass of our Galaxy) merger episodes are quite unlikely in view of the available kinematical properties of the disc white dwarf population. Smaller merger episodes (of the order of ∼4 per cent of the mass of our Galaxy) are, however, compatible with our current knowledge of those kinematical properties. Finally, we prove that the white dwarf luminosity function is quite insensitive to such a merger episode. [ABSTRACT FROM AUTHOR]

Published

2001