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Power of wavelets in analyses of transit and phase curves in the presence of stellar variability and instrumental noise. II. Accuracy of the transit parameters

Kálmán, Szilard and Szabo, Gy. M. and Csizmadia, Szilard (2023) Power of wavelets in analyses of transit and phase curves in the presence of stellar variability and instrumental noise. II. Accuracy of the transit parameters. Astronomy & Astrophysics, 675, A107. EDP Sciences. doi: 10.1051/0004-6361/202143017. ISSN 0004-6361.

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Official URL: https://www.aanda.org/articles/aa/full_html/2023/07/aa43017-21/aa43017-21.html

Abstract

Context. Correlated noise in exoplanet light curves, such as noise from stellar activity, convection noise, and instrumental noise, distorts the exoplanet transit light curves and leads to biases in the best-fit transit parameters. An optimal fitting algorithm can provide stability against the presence of correlated noises and lead to statistically consistent results, namely, the actual biases are usually within the error interval. This is not automatically satisfied by most of the algorithms in everyday use and the testing of the algorithms is necessary. Aims. In this paper, we describe a bootstrapping-like test to handle with the general case and we apply it to the wavelet-based Transit and Light Curve Modeller (TLCM) algorithm, testing it for the stability against the correlated noise. We compare and contrast the results with regard to the FITSH algorithm, which is based on an assumption of white noise. Methods. We simulated transit light curves with previously known parameters in the presence of a correlated noise model generated by an Autoregressive Integrated Moving Average (ARIMA) process. Then we solved the simulated observations and examined the resulting parameters and error intervals. Results. We have found that the assumption of FITSH, namely, that only white noise is present, has led to inconsistencies in the results: the distribution of best-fit parameters is then broader than the determined error intervals by a factor of 3–6. On the other hand, the wavelet-based TLCM algorithm handles the correlated noise properly, leading to both properly determined parameter and error intervals that are perfectly consistent with the actual biases.

Item URL in elib:https://elib.dlr.de/196716/
Document Type:Article
Title:Power of wavelets in analyses of transit and phase curves in the presence of stellar variability and instrumental noise. II. Accuracy of the transit parameters
Authors:
AuthorsInstitution or Email of AuthorsAuthor's ORCID iDORCID Put Code
Kálmán, SzilardKonkoly Observatory, Research Centre for Astronomy and Earth Sciences; MTA-ELTE Exoplanet Research Group; ELTE Eötvös Loránd University; CSFK, MTA Centre of ExcellenceUNSPECIFIEDUNSPECIFIED
Szabo, Gy. M.ELTE Gothard Astrophysical ObservatoryUNSPECIFIEDUNSPECIFIED
Csizmadia, SzilardUNSPECIFIEDhttps://orcid.org/0000-0001-6803-9698UNSPECIFIED
Date:7 July 2023
Journal or Publication Title:Astronomy & Astrophysics
Refereed publication:Yes
Open Access:Yes
Gold Open Access:No
In SCOPUS:Yes
In ISI Web of Science:Yes
Volume:675
DOI:10.1051/0004-6361/202143017
Page Range:A107
Publisher:EDP Sciences
ISSN:0004-6361
Status:Published
Keywords:methods: data analysis; techniques: photometric; planets and satellites: general; Astrophysics - Earth and Planetary Astrophysics; Astrophysics - Instrumentation and Methods for Astrophysics
HGF - Research field:Aeronautics, Space and Transport
HGF - Program:Space
HGF - Program Themes:Space Exploration
DLR - Research area:Raumfahrt
DLR - Program:R EW - Space Exploration
DLR - Research theme (Project):R - Project PLATO - PMC and Science
Location: Berlin-Adlershof
Institutes and Institutions:Institute of Planetary Research > Extrasolar Planets and Atmospheres
Deposited By: Csizmadia, Szilard
Deposited On:28 Aug 2023 09:04
Last Modified:19 Sep 2023 08:59

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