Gaia Data Release 3: Gaia scan-angle dependent signals and spurious periods

TL;DR

Gaia DR3 data contains scan-angle dependent signals caused by source structure and nearby objects, leading to spurious periods; understanding these effects helps identify and mitigate them in current and future Gaia data releases.

Contribution

This paper explains the origin of scan-angle dependent signals in Gaia DR3, provides statistical methods to identify affected sources, and offers insights into their physical causes and mitigation strategies.

Findings

Scan-angle dependent signals are mainly caused by fixed-orientation optical pairs and distant galaxy cores.

Numerical simulations reproduce observed spurious period structures.

Statistics can identify and analyze sources affected by these signals.

Abstract

Context: Gaia DR3 time series data may contain spurious signals related to the time-dependent scan angle. Aims: We aim to explain the origin of scan-angle dependent signals and how they can lead to spurious periods, provide statistics to identify them in the data, and suggest how to deal with them in Gaia DR3 data and in future releases. Methods: Using real Gaia data, alongside numerical and analytical models, we visualise and explain the features observed in the data. Results: We demonstrated with Gaia data that source structure (multiplicity or extendedness) or pollution from close-by bright objects can cause biases in the image parameter determination from which photometric, astrometric and (indirectly) radial velocity time series are derived. These biases are a function of the time-dependent scan direction of the instrument and thus can introduce scan-angle dependent signals, which in turn can result in specific spurious periodic signals. Numerical simulations qualitatively reproduce the general structure observed in the spurious period and spatial distribution of photometry and astrometry. A variety of statistics allows for identification of affected sources. Conclusions: The origin of the scan-angle dependent signals and subsequent spurious periods is well-understood and is in majority caused by fixed-orientation optical pairs with separation <0.5" (amongst which binaries with P>>5y) and (cores of) distant galaxies. Though the majority of sources with affected derived parameters have been filtered out from the Gaia archive, there remain Gaia DR3 data that should be treated with care (e.g. gaia_source was untouched). Finally, the various statistics discussed in the paper can not only be used to identify and filter affected sources, but alternatively reveal new information about them not available through other means, especially in terms of binarity on sub-arcsecond scale.