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Main Authors: Souza, Rhimon A. Assis, Belete, Asnakew Bewketu, Martins, Bruno L. Canto, de Azevedo, Lívia M. C., Campelo, Josafary P. S., Leão, Izan C, De Medeiros, José R.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.02076
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author Souza, Rhimon A. Assis
Belete, Asnakew Bewketu
Martins, Bruno L. Canto
de Azevedo, Lívia M. C.
Campelo, Josafary P. S.
Leão, Izan C
De Medeiros, José R.
author_facet Souza, Rhimon A. Assis
Belete, Asnakew Bewketu
Martins, Bruno L. Canto
de Azevedo, Lívia M. C.
Campelo, Josafary P. S.
Leão, Izan C
De Medeiros, José R.
contents Variations in scaling behavior in the flux and emissions of gravitational lensed quasars can provide valuable information about the dynamics within the sources and their cosmological evolution with time. Here, we study the multifractal behavior of the light curves of 14 lensed quasars with multiple images in the $r$ band, with redshift ranging from 0.657 to 2.730, in the search for potential differences in nonlinearity between the signals of the quasar multiple images. Among these lensed systems, nine present two images, two present three images, and three present four images. To this end, we apply the wavelet transform-based multifractal analysis formalism called Wavelet Transform Modulus Maxima (WTMM). We identify strong multifractal signatures in the light curves of the images of all analyzed lensed quasar systems, independently of the number of images, with a significant difference between the degree of multifractality of all the images and combinations. We have also searched for a possible connection between the degree of multifractality and the characteristic parameters related to the quasar source and the lensing galaxy. These parameters include the Einstein ring radius and the accretion disk size and the characteristic timescales related to microlensing variability. The analysis reveals some apparent trends, pointing to a decrease in the degree of multifractality with the increase of the quasar's source size and timescale. Using a larger sample and following a similar approach, the present study confirms a previous finding for the quasar Q0957+561.
format Preprint
id arxiv_https___arxiv_org_abs_2411_02076
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Multifractality Signatures in Lensed Quasars
Souza, Rhimon A. Assis
Belete, Asnakew Bewketu
Martins, Bruno L. Canto
de Azevedo, Lívia M. C.
Campelo, Josafary P. S.
Leão, Izan C
De Medeiros, José R.
Astrophysics of Galaxies
Variations in scaling behavior in the flux and emissions of gravitational lensed quasars can provide valuable information about the dynamics within the sources and their cosmological evolution with time. Here, we study the multifractal behavior of the light curves of 14 lensed quasars with multiple images in the $r$ band, with redshift ranging from 0.657 to 2.730, in the search for potential differences in nonlinearity between the signals of the quasar multiple images. Among these lensed systems, nine present two images, two present three images, and three present four images. To this end, we apply the wavelet transform-based multifractal analysis formalism called Wavelet Transform Modulus Maxima (WTMM). We identify strong multifractal signatures in the light curves of the images of all analyzed lensed quasar systems, independently of the number of images, with a significant difference between the degree of multifractality of all the images and combinations. We have also searched for a possible connection between the degree of multifractality and the characteristic parameters related to the quasar source and the lensing galaxy. These parameters include the Einstein ring radius and the accretion disk size and the characteristic timescales related to microlensing variability. The analysis reveals some apparent trends, pointing to a decrease in the degree of multifractality with the increase of the quasar's source size and timescale. Using a larger sample and following a similar approach, the present study confirms a previous finding for the quasar Q0957+561.
title Multifractality Signatures in Lensed Quasars
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2411.02076