Your search keyword '"Vargas-Domínguez, Santiago"' showing total 3 results

1. Análisis de polaridades magnéticas en regiones activas para la predicción de fulguraciones solares.

Author

Granados-Hernández, Natalia and Vargas-Domínguez, Santiago

Subjects

SOLAR active regions, SOLAR flares, SPACE environment, SOLAR activity, MAGNETIC fields, SOLAR atmosphere, SUNSPOTS

Abstract

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Published

2020

2. Analysis of large-scale photospheric dynamics during the solar cycle 24.

Author

Quintero Ortega, Valeria, Vargas Domínguez, Santiago, and Campos Rozo, José Iván

Subjects

*SOLAR wind, *SOLAR activity, *HELIOSEISMOLOGY, *TRACKING algorithms, *SOLAR photosphere, *SOLAR cycle

Abstract

The analysis of the movements of the solar photosphere has been used by several authors to study the dynamics of solar plasma at various spatial and temporal scales. This work, in particular, is focused on the study of vertical movements, in order to perform a statistical analysis of the flow maps to characterize some dynamic aspects of the photospheric plasma along the time evolution of the Sun. To carry out this analysis, we used a set of images obtained by the HMI instrument HMI (Helioseismic and Magnetic Imager) aboard the SDO mission (Solar Dynamics Observatory) to which local correlation tracking algorithms (LCT) were applied. they allow the identification of areas of convergence and divergence of the plasma at certain time intervals during the solar cycle 24, thus covering moments of high and low solar activity. The study gives us the reason for the meridional movements showing that in low latitudes the outgoing emergency flow occupied a higher percentage of area, while in the latitudes near the poles the behavior changes, that is, the incoming flows occupy a greater area. [ABSTRACT FROM AUTHOR]

Published

2018

3. Predicción de la ocurrencia de fulguraciones en el ciclo solar 24 a partir de la evolución de los baricentros de polaridad magnética en regiones activas

Author

Granados Hernández, Natalia, Vargas Domínguez, Santiago, Bonaccini Calia, Domenico, and Grupo de Astrofísica

Subjects

Radación solar, Space weather, Sunspots, Actividad solar, Solar activity, 523 - Cuerpos y fenómenos celestes específicos [520 - Astronomía y ciencias afines], Clima espacial, Recopilación de datos, Bipolar active region, Región activa bipolar, Solar radiation, Data collecting, Predicción, Manchas solares, Prediction, Fulguración, Flare

Abstract

ilustraciones, gráficas, tablas Solar bipolar active regions and the processes that occur in them have been studied and analyzed for decades, generating many types of models and characterizations for the occurrence of different eruptive events that take place in the solar photosphere. Within these regions, the most characteristic explosive events are solar flares, which are big bursts of energy release, that depending on its magnitude, can represent negative effects on Earth and the technology developed by humans. For this reason, over the years, scientists have tried to predict the occurrence of these events. This work main target is the construction of a model that allows predicting the occurrence of solar flares, analyzing variables of importance in bipolar active regions such as their longitudinal magnetic field, areas of their umbra and the distance between the barycenters of the sunspots involved with opposite polarities. Variations on these parameters have demonstrated to be relevant for the occurrence of flaring events. Data processing is applied on HMI/SHARPs magnetograms and the method of the Weighted Horizontal Magnetic Gradient is used, finding a temporal relationship between the maximum of this variable and the moment of the occurrence of the flare, in a sample of 102 active regions of different GOES class. Las regiones activas bipolares solares y los procesos que ocurren en ellas han sido estudiados y analizados durante décadas, generando muchos tipos de modelos y caracterizaciones para la ocurrencia de diferentes eventos eruptivos que tienen lugar en la fotosfera solar. Dentro de estas regiones, los eventos explosivos más característicos son las fulguraciones solares, que son grandes ráfagas de liberación de energía, que dependiendo de su magnitud, pueden representar efectos negativos sobre la Tierra y la tecnología desarrollada por los humanos. Por esta razón, a lo largo de los años, los científicos han tratado de predecir la ocurrencia de estos eventos. El objetivo principal de este trabajo es la construcción de un modelo que permita predecir la ocurrencia de fulguraciones solares, analizando variables de importancia en regiones activas bipolares como su campo magnético longitudinal, áreas de su umbra y la distancia entre los baricentros de las manchas solares involucradas de polaridad opuesta. Las variaciones de estos parámetros han demostrado ser relevantes para la ocurrencia de estos eventos eruptivos. Se aplica procesamiento de datos sobre magnetogramas HMI/SHARPs y se utiliza el método del Gradiente Magnético Horizontal Ponderado, encontrando una relación temporal entre el máximo de esta variable y el momento de la ocurrencia de la fulguración, en una muestra de 102 regiones activas de diferente clase GOES. (Texto tomado de la fuente). Incluye anexos Maestría Magíster en Ciencias - Astronomía Metodología cuantitativa. Astrofísica solar

Published

2021