Your search keyword '"Roca-Fàbrega, S."' showing total 9 results

1. Phase spirals in cosmological simulations of Milky Way-sized galaxies.

Author

García-Conde, B, Roca-Fàbrega, S, Antoja, T, Ramos, P, and Valenzuela, O

Subjects

*GALAXIES, *STELLAR populations, *PHASE space, *STAR formation, *STELLAR dynamics, *SPIRAL galaxies, *MILKY Way

Abstract

We study the vertical perturbations in the galactic disc of the Milky Way-size high-resolution hydrodynamical cosmological simulation named GARROTXA. We detect phase spirals in the vertical projection Z − VZ of disc's stellar particles for the first time in this type of simulations. Qualitatively similar structures were detected in the recent Gaia data, and their origin is still under study. In our model, the spiral-like structures in the phase space are present in a wide range of times and locations across the disc. By accounting for an evolving mix of stellar populations, we observe that, as seen in the data, the phase spirals are better observed in the range of younger-intermediate star particles. We measure the intensity of the spiral with a Fourier decomposition and find that these structures appear stronger near satellite pericentres. Current dynamical models of the phase spiral considering a single perturber required a mass at least of the order of 1010 M⊙, but all three of our satellites have masses of the order of ∼108 M⊙. We suggest that there are other mechanisms at play which appear naturally in our model such as the physics of gas, collective effect of multiple perturbers, and a dynamically cold population that is continuously renovated by the star formation. Complementing collisionless isolated N -body models with the use of fully cosmological simulations with enough resolution can provide new insights into the nature/origin of the phase spiral. [ABSTRACT FROM AUTHOR]

Published

2022

2. Erratum: Phase spirals in cosmological simulations of Milky Way-sized galaxies.

Author

García-Conde, B, Roca-Fàbrega, S, Antoja, T, Ramos, P, and Valenzuela, O

Subjects

*GALAXIES, *GALACTIC evolution, *STELLAR dynamics, *GALACTIC dynamics, *PHASE space, *MILKY Way, *SPIRAL galaxies

Abstract

Keywords: errata; addenda; methods: numerical; stars: kinematics and dynamics; Galaxy: kinematics and dynamics; galaxies: evolution EN errata addenda methods: numerical stars: kinematics and dynamics Galaxy: kinematics and dynamics galaxies: evolution 1801 1803 3 07/08/22 20220801 NES 220801 This is an erratum to the paper 'Phase spirals in cosmological simulations of Milky Way-sized galaxies' published in MNRAS, 2022, 510, 154-160. Errata, methods: numerical, stars: kinematics and dynamics, Galaxy: kinematics and dynamics, galaxies: evolution, addenda. [Extracted from the article]

Published

2022

3. CGM properties in VELA and NIHAO simulations; the OVI ionization mechanism: dependence on redshift, halo mass, and radius.

Author

Roca-Fàbrega, S, Dekel, A, Faerman, Y, Gnat, O, Strawn, C, Ceverino, D, Primack, J, Macciò, A V, Dutton, A A, Prochaska, J X, and Stern, J

Subjects

*GALAXY formation, *RADIUS (Geometry), *ELECTRON impact ionization

Abstract

We study the components of cool and warm/hot gas in the circumgalactic medium (CGM) of simulated galaxies and address the relative production of OVI by photoionization versus collisional ionization, as a function of halo mass, redshift, and distance from the galaxy halo centre. This is done utilizing two different suites of zoom-in hydro-cosmological simulations, VELA (6 haloes; z > 1) and NIHAO (18 haloes; to z  = 0), which provide a broad theoretical basis because they use different codes and physical recipes for star formation and feedback. In all haloes studied in this work, we find that collisional ionization by thermal electrons dominates at high redshift, while photoionization of cool or warm gas by the metagalactic radiation takes over near z ∼ 2. In haloes of |${\sim } 10^{12}\, \mathrm{M}_{\odot }$| and above, collisions become important again at z < 0.5, while photoionization remains significant down to z  = 0 for less massive haloes. In haloes with |$M_{\textrm{v}}\gt 3\times 10^{11}\, \mathrm{M}_{\odot }$|⁠, at z ∼ 0 most of the photoionized OVI is in a warm, not cool, gas phase (T ≲ 3 × 105 K). We also find that collisions are dominant in the central regions of haloes, while photoionization is more significant at the outskirts, around R v, even in massive haloes. This too may be explained by the presence of warm gas or, in lower mass haloes, by cool gas inflows. [ABSTRACT FROM AUTHOR]

Published

2019

4. Searching for the nature of stars with debris disks and planets.

Author

de la Reza, R., Chavero, C., Roca-Fàbrega, S., Llorente de Andrés, F., Cruz, P., and Cifuentes, C.

Subjects

*PLANETS, *KUIPER belt, *SOLAR system, *STELLAR mass, *STELLAR evolution, *SPACE debris

Abstract

The nature of the few known solar-mass stars simultaneously containing debris disks and planets remains an open question. A number of works have shown that this property appears to be independent of planetary masses as well as of stellar age, but possible correlations with stellar kinematics and metallicity have not been investigated. In this paper, we show that the majority of known stars containing both debris disks and planets belong to the metal-enriched Galactic thin disk. The few exceptions are stars that seem to be born in the star formation peak occurring in times of thick disk formation (i.e., HD 10700, HD 20794, and HD 40307), that is, between 11 and 8 Gyr. The mass of the dusty disk of these three old stars measured at 70 μm is very small - in fact, it is lower than that of the Kuiper belt of our Solar system by several orders of magnitude. These results are not surprising, as they remain within the values expected for the stellar disk evolution of such primitive stars. In parallel, we found another six thick-disk stars containing only debris disks or planets. These results enable us to establish a correlation between stellar metallicity and the mass of the dust disk modulated by the different formation epochs of the thick and thin Galactic disks. [ABSTRACT FROM AUTHOR]

Published

2023

5. Large scale characterization of the stellar velocity distribution in the galactic disk.

Author

Roca-Fàbrega, S., Valenzuela, O., Figueras, F., Romero-Gómez, M., and Antoja, T.

Subjects

*VELOCITY distribution (Statistical mechanics), *MILKY Way, *SIMULATION methods & models, *ELLIPSOIDS, *RESONANCE, *STATISTICAL correlation

Abstract

Test particle simulations of Milky Way type galactic disks are being conducted to map the evolution of the stellar large scale kinematic response to the bar and spiral structure. Second and third order moments of the velocity distribution function prove to be good indicators of both, the velocity ellipsoid misalignment near the arms and the bar, and the degree of kinematic substructure in the UV plane, that is, the presence of moving groups. A large scale analysis all through the galactic disk allows to establish the kinematic behavior near resonances and the correlation between the kinematic parameters and properties of the non-axisymmetric components, such as its transient nature or its mass overdensity. N-body simulaions are being run in order to test these results in self-consistent models. [ABSTRACT FROM AUTHOR]

Published

2012

6. Large scale characterization of the stellar velocity distribution in the galactic disk.

Author

Roca-Fàbrega, S., Valenzuela, O., Figueras, F., Romero-Gómez, M., and Antoja, T.

Subjects

*STELLAR activity, *KINEMATICS, *VELOCITY distribution (Statistical mechanics), *DISKS (Astrophysics), *STATISTICAL mechanics

Abstract

Test particle simulations of Milky Way type galactic disks are being conducted to map the evolution of the stellar large scale kinematic response to the bar and spiral structure. Second and third order moments of the velocity distribution function prove to be good indicators of both, the velocity ellipsoid misalignment near the arms and the bar, and the degree of kinematic substructure in the UV plane, that is, the presence of moving groups. A large scale analysis all through the galactic disk allows to establish the kinematic behavior near resonances and the correlation between the kinematic parameters and properties of the non-axisymmetric components, such as its transient nature or its mass overdensity. N-body simulaions are being run in order to test these results in self-consistent models. [ABSTRACT FROM AUTHOR]

Published

2012

7. NOVEL KINEMATIC METHODS TO TRACE SPIRAL ARMS NATURE USING GAIA DATA.

Author

Roca-Fàbrega, S., Figueras, F., Valenzuela, O., Romero-Gómez, M., Antoja, T., Colín, P., Pichardo, B., and Velázquez, H.

Subjects

*STRUCTURE of spiral galaxies, *DISK galaxies, *N-body simulations (Astronomy), *HYDRODYNAMICS, *RIGID bodies

Abstract

In this work we shed new light in the nature of spiral arm structures in galaxies. We present a disk kinematic and dynamic study of MW like galaxies using complementary approaches: analytical models, test-particle simulations, pure N-body and cosmological N-body plus hydrodynamic simulations. Using collisionless N-body data we have found that models with strong bar present a flat rotation frequency, i.e. rigid body rotation, whereas in the opposite extreme case, i.e. in unbarred systems, spiral arms are disk corotant (Roca-Fàbrega et al. 2013). Complementary to this work, we discuss how the vertex deviation parameter is a good tracer of corotation (CR) and outer Lindblad resonance radius (OLR) (Roca-Fàbrega et al. 2014). We have succeeded to produce MW like models in fully cosmological N-body plus hydrodynamic simulations with a high resolution (Roca-Fàbrega et al., in preparation). First results concerning disk phase space properties in terms of spiral arm nature using these simulations are presented. [ABSTRACT FROM AUTHOR]

Published

2014

8. Gaia DR2 reveals a star formation burst in the disc 2–3 Gyr ago.

Author

Mor, R., Robin, A. C., Figueras, F., Roca-Fàbrega, S., and Luri, X.

Subjects

*STAR formation, *ASTROMETRY, *STELLAR luminosity function, *STELLAR parallax, *STELLAR mass, *STELLAR populations, *STELLAR initial mass function

Abstract

We use Gaia data release 2 (DR2) magnitudes, colours, and parallaxes for stars with G <  12 to explore a parameter space with 15 dimensions that simultaneously includes the initial mass function (IMF) and a non-parametric star formation history (SFH) for the Galactic disc. This inference is performed by combining the Besançon Galaxy Model fast approximate simulations (BGM FASt) and an approximate Bayesian computation algorithm. We find in Gaia DR2 data an imprint of a star formation burst 2–3 Gyr ago in the Galactic thin disc domain, and a present star formation rate (SFR) of ≈1 M⊙/yr. Our results show a decreasing trend of the SFR from 9–10 Gyr to 6–7 Gyr ago. This is consistent with the cosmological star formation quenching observed at redshifts z <  1.8. This decreasing trend is followed by a SFR enhancement starting at ∼5 Gyr ago and continuing until ∼1 Gyr ago which is detected with high statistical significance by discarding the null hypothesis of an exponential SFH with a p-value = 0.002. We estimate, from our best fit model, that about 50% of the mass used to generate stars, along the thin disc life, was expended in the period from 5 to 1 Gyr ago. The timescale and the amount of stellar mass generated during the SFR enhancement event lead us to hypothesise that its origin, currently under investigation, is not intrinsic to the disc. Thus, an external perturbation is needed for its explanation. Additionally, for the thin disc we find a slope of the IMF of α3 ≈ 2 for masses M >  1.53 M⊙ and α2 ≈ 1.3 for the mass range between 0.5 and 1.53 M⊙. This is the first time that we consider a non-parametric SFH for the thin disc in the Besançon Galaxy Model. This new step, together with the capabilities of the Gaia DR2 parallaxes to break degeneracies between different stellar populations, allow us to better constrain the SFH and the IMF. [ABSTRACT FROM AUTHOR]

Published

2019

9. The intricate Galaxy disk: velocity asymmetries in Gaia-TGAS.

Author

Antoja, T., de Bruijne, J., Figueras, F., Mor, R., Prusti, T., and Roca-Fàbrega, S.

Subjects

*DISK galaxies, *MILKY Way, *VELOCITY, *LONGITUDE, *PARALLAX, *ASTROMETRY

Abstract

We use Gaia-TGAS data to compare the transverse velocities in Galactic longitude (coming from proper motions and parallaxes) in the Milky Way disk for negative and positive longitudes as a function of distance. The transverse velocities are strongly asymmetric and deviate significantly from the expectations for an axisymmetric galaxy. The value and sign of the asymmetry changes at spatial scales of several tens of degrees in Galactic longitude and about 0:5 kpc in distance. The asymmetry is statistically significant at 95% confidence level for 57% of the region probed, which extends up to ~1:2 kpc. A percentage of 24% of the region shows absolute differences at this confidence level larger than 5 km s-1 and 7% larger than 10 km s-1. The asymmetry pattern shows mild variations in the vertical direction and with stellar type. A first qualitative comparison with spiral arm models indicates that the arms are probably not the main source of the asymmetry. We briefly discuss alternative origins. This is the first time that global all-sky asymmetries are detected in the Milky Way kinematics beyond the local neighbourhood and with a purely astrometric sample. [ABSTRACT FROM AUTHOR]

Published

2017