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16 results on '"Rial, Diego F."'

1. A method to deconvolve mass ratio distribution from binary stars

Author

Cure, Michel, Rial, Diego F., Christen, Alejandra, Cassetti, Julia, and Boffin, Henri M. J.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

To better understand the evolution of stars in binary systems as well as to constrain the formation of binary stars, it is important to know the binary mass-ratio distribution. However, in most cases, i.e. for single-lined spectroscopic binaries, the mass ratio cannot be measured directly but only derived as the convolution of a function that depends on the mass ratio and the unknown inclination angle of the orbit on the plane of the sky. We extend our previous method to deconvolve this inverse problem (Cure et al. 2014), i.e., we obtain as an integral the cumulative distribution function (CDF) for the mass ratio distribution. After a suitable transformation of variables it turns out that this problem is the same as the one for rotational velocities $v \sin i$, allowing a close analytic formulation for the CDF. We then apply our method to two real datasets: a sample of Am stars binary systems, and a sample of massive spectroscopic binaries in the Cyg OB2 Association.} {We are able to reproduce the previous results of Boffin (2010) for the sample of Am stars, while we show that the mass ratio distribution of massive stars shows an excess of small mass ratio systems, contrarily to what was claimed by Kobulnicky et al. (2014). Our method proves very robust and deconvolves the distribution from a sample in just a single step., Comment: Accepted for publication in A&A. 9 pages, 3 figures

Published
2014
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2. A method to deconvolve stellar rotational velocities

Author

Cure, Michel, Rial, Diego F., Christen, Alejandra, and Cassetti, Julia

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

Rotational speed is an important physical parameter of stars and knowing the distribution of stellar rotational velocities is essential for the understanding stellar evolution. However, it cannot be measured directly but the convolution of the rotational speed and the sine of the inclination angle, $v \sin i$. We developed a method to deconvolve this inverse problem and obtain the cumulative distribution function (CDF) for stellar rotational velocities extending the work of Chandrasekhar & M\"unch (1950). This method is applied a) to theoretical synthetic data recovering the original velocity distribution with very small error; b) to a sample of about 12.000 field main--sequence stars, corroborating that the velocity distribution function is non--Maxwellian, but is better described by distributions based on the concept of maximum entropy, such as Tsallis or Kaniadakis distribution functions. This is a very robust and novel method that deconvolve the rotational velocity cumulative distribution function from a sample of $v \sin i$ data in just one single step without needing any convergence criteria., Comment: Accepted in A&A

Published
2014
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3. Limb-Darkened Radiation-Driven Winds from Massive Stars

Author

Curé, Michel, Cidale, Lydia, and Rial, Diego F.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

We calculated the influence of the limb-darkened finite disk correction factor in the theory of radiation-driven winds from massive stars. We solved the 1-D m-CAK hydrodynamical equation of rotating radiation-driven winds for all three known solutions, i.e., fast, \Omega-slow and \delta-slow. We found that for the fast solution, the mass loss rate is increased by a factor \sim 10%, while the terminal velocity is reduced about 10%, when compared with the solution using a finite disk correction factor from a uniformly bright star. For the other two slow solutions the changes are almost negligible. Although, we found that the limb darkening has no effects on the wind momentum luminosity relationship, it would affect the calculation of synthetic line profiles and the derivation of accurate wind parameters., Comment: Accepted for publication in ApJ. 19 pages, 6 figures

Published
2012
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4. A New Numerical Method for Solving Radiation Driven Winds from Hot Stars

Author

Cure, Michel and Rial, Diego F.

Subjects
Astrophysics
Abstract

We present a general method for solving the non--linear differential equation of monotonically increasing steady--state radiation driven winds. We graphically identify all the singular points before transforming the momentum equation to a system of differential equations with all the gradients explicitly give. This permits a topological classification of all singular points and to calculate the maximum and minimum mass--loss of the wind. We use our method to analyse for the first time the topology of the non--rotating frozen in ionisation m--CAK wind, with the inclusion of the finite disk correction factor and find up to 4 singular points, three of the x--type and one attractor--type. The only singular point (and solution passing through) that satisfies the boundary condition at the stellar surface is the standard m--CAK singular point., Comment: Accepted for publication in Astronomische Nachrichten / Astronomical Notes

Published
2007
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5. Outflowing disk winds in B[e] Supergiants

Author

Curé, Michel, Rial, Diego F., and Cidale, Lydia

Subjects
Astrophysics
Abstract

The effects of rapid rotation and bi--stability upon the density contrast between the equatorial and polar directions of a B[e] supergiant are investigated. Based on a new slow solution for different high rotational radiation--driven winds and the fact that bi--stability allows a change in the line--force parameters ($\alpha$, $k$, and $\delta$), the equatorial densities are about $10^2$--$10^3$ times higher than the polar ones. These values are in qualitative agreement with the observations. This calculation also permits to obtain the aperture angle of the disk., Comment: 6 pages, 2 figures. To appear in the proceedings "Stars with the B[e] phenomenon"

Published
2005

7. Linear incidence rate: Its influence on the asymptotic behavior of a stochastic epidemic model.

Author

Christen, Alejandra, Maulén‐Yañez, M. Angélica, Valencia, Yoselinne, González‐Olivares, Eduardo, Rial, Diego F., and Curé, Michel

Subjects
STOCHASTIC models, STOCHASTIC differential equations, PROBABILITY measures, NEWBORN infants, SYSTEM dynamics
Abstract

Diseases are an important fact in the real world and concentrate the attention of a great number of researchers. Many of them are caused by nematodes, fungi, bacteria, or viruses. Nevertheless, there exists another, which are transmitted from the mothers to offspring (vertical transmission). In this paper, the dynamics of an suceptible‐infectious (SI) epidemic model are analyzed considering a linear (bilinear or standard) incidence in the deterministic and stochastic regimes, assuming that the newborns are infected from their own mothers. A long‐term behavior of the proportion of infected individuals depending on the system parameters and initial conditions is established. Then, we consider the case where this linear transmission rate, not previously used for this model, has a stochastic component described by a white noise which leads to a stochastic differential equation (SDE). The existence and uniqueness of the solution of the SDE is proved. The extinction of the disease is characterized, and an exponential decay to extinction is obtained under certain restrictions of the parameters. By assuming time‐independent solutions of the Fokker‐Plank equation, we determine a stationary measure of the probability density, and some of its properties are provided. Numerical simulations are performed to show the dynamics of the system in different regimes and to illustrate some differences between deterministic and stochastic effects. [ABSTRACT FROM AUTHOR]

Published
2021
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11. Orbital stability of numerical periodi nonlinear Schrödinger equation

Author

Borgna, Juan P. and Rial, Diego F.

Subjects
34L15, orbital stability, 35J25, 35P30, numerical periodic nonlinear Schrödinger equation, ground states
Abstract

This work is devoted to the study of the system that arises by discretization of the periodic nonlinear Schrödinger equation in dimension one. We study the existence of the discrete ground states for this system and their stability property when the potential parameter ¾ is small enough: i.e., if the initial data are close to the ground state, the solution of the system will remain near to the orbit of the discrete ground state forever. This stability property is an appropriate tool for proving the convergence of the numerical method.

Published
2008

12. Outflowing disk winds in B[e] Supergiants

Author

Cur��, Michel, Rial, Diego F., and Cidale, Lydia

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics
Abstract

The effects of rapid rotation and bi--stability upon the density contrast between the equatorial and polar directions of a B[e] supergiant are investigated. Based on a new slow solution for different high rotational radiation--driven winds and the fact that bi--stability allows a change in the line--force parameters ($\alpha$, $k$, and $\delta$), the equatorial densities are about $10^2$--$10^3$ times higher than the polar ones. These values are in qualitative agreement with the observations. This calculation also permits to obtain the aperture angle of the disk., Comment: 6 pages, 2 figures. To appear in the proceedings "Stars with the B[e] phenomenon"

Published
2005

16. A method to deconvolve mass ratio distribution of binary stars (Research Note).

Author

Curé, Michel, Rial, Diego F., Cassetti, Julia, Christen, Alejandra, and Boffin, Henri M. J.

Subjects
*BINARY stars, *STELLAR evolution, *CUMULATIVE distribution function, *MASS-to-charge ratio, *ASTRONOMICAL spectroscopy
Abstract

Aims. It is important to know the binary mass-ratio distribution to better understand the evolution of stars in binary systems and to constrain their formation. However, in most cases, that is, for single-lined spectroscopic binaries, the mass ratio cannot be measured directly, but can only be derived as the convolution of a function that depends on the mass ratio and on the unknown inclination angle of the orbit on the plane of the sky. Methods. We extend our previous method for deconvolving this inverse problem by obtaining the cumulative distribution function (CDF) for the mass-ratio distribution as an integral. Results. After a suitable transformation of variables, this problem becomes the same as the problem of rotational velocities v sin i, allowing a close analytic formulation for the CDF.We here apply our method to two real datasets: a sample of Am star binary systems, and a sample of massive spectroscopic binaries in the Cyg OB2 association. Conclusions. We are able to reproduce previous results for the sample of Am stars. In addition, the mass-ratio distribution of massive stars shows an excess of systems with a low mass ratio, in contrast to what was claimed elsewhere. Our method proves to be very reliable and deconvolves the distribution from a sample in one single step. [ABSTRACT FROM AUTHOR]

Published
2015
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