Localizing Sources of Variability in Crowded TESS Photometry

Localizing Sources of Variability in Crowded TESS Photometry

Abstract The Transiting Exoplanet Survey Satellite (TESS) has an exceptionally large plate scale of 21″ px −1 , causing most TESS light curves to record the blended light of multiple stars. This creates a danger of misattributing variability observed by TESS to the wrong source, which would invalida...

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Bibliographic Details
Published in:The Astronomical journal Vol. 165; no. 4; pp. 141 - 153
Main Authors: Higgins, Michael E., Bell, Keaton J.
Format: Journal Article
Language:English
Published: Madison The American Astronomical Society 01-04-2023
IOP Publishing
Subjects:
Astronomical object identification
Astronomy
CCD photometry
Contaminants
Extrasolar planets
Light
Light curve
Photometry
Pixels
Planet detection
Response functions
Spatial resolution
Stars
Systematics
Time series analysis
Transit
Variability
Variable stars
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Summary:Abstract The Transiting Exoplanet Survey Satellite (TESS) has an exceptionally large plate scale of 21″ px −1 , causing most TESS light curves to record the blended light of multiple stars. This creates a danger of misattributing variability observed by TESS to the wrong source, which would invalidate any analysis. We developed a method that can localize the origin of variability on the sky to better than one fifth of a pixel. Given measured frequencies of variability (e.g., from periodogram analysis), we show that the best-fit sinusoid amplitudes to raw light curves extracted from each pixel are distributed in the same way as light from the variable source. The primary assumption of this method is that other nearby stars are not variable at the same frequencies. Essentially, we are using the high frequency resolution of TESS to overcome limitations from its low spatial resolution. We have implemented our method in an open-source Python package, TESS _ localize ( github.com/Higgins00/TESS-Localize ), that determines the location of a variable source on the sky and the most likely Gaia source given TESS pixel data and a set of observed frequencies of variability. Our method utilizes models of the TESS pixel response function, and we characterize systematics in the residuals of fitting these models to data. We find that even stars more than three pixels outside a photometric aperture can produce significant contaminant signals in the extracted light curves. Given the ubiquity of source blending in TESS light curves, verifying the source of observed variability should be a standard step in TESS analyses.
Bibliography:AAS38358
Laboratory Astrophysics, Instrumentation, Software, and Data
ISSN:0004-6256
1538-3881
DOI:10.3847/1538-3881/acb20c