# A Gaia-PS1-SDSS (GPS1) Proper Motion Catalog Covering 3/4 of the Sky

**Authors:** Hai-Jun Tian, Prashansa Gupta, Branimir Sesar, Hans-Walter Rix,, Nicolas F. Martin, Chao Liu, Bertrand Goldman, Imants Platais, Rolf-Peter, Kudritzki, Christopher Z. Waters

arXiv: 1703.06278 · 2017-09-26

## TL;DR

The paper presents GPS1, a comprehensive proper motion catalog covering three-fourths of the sky, combining multiple surveys to achieve high accuracy and precision for 350 million sources down to magnitude 20.

## Contribution

It introduces a novel method to calibrate proper motions across diverse datasets, significantly improving accuracy over previous catalogs.

## Key findings

- GPS1 has systematic errors less than 0.3 mas/yr.
- GPS1's precision is about 1.5-2.0 mas/yr, four times better than prior catalogs.
- Validation shows GPS1's reliability across different celestial objects.

## Abstract

We combine Gaia DR1, PS1, SDSS and 2MASS astrometry to measure proper motions for 350 million sources across three-fourths of the sky down to a magnitude of $m_r\sim20$\,. Using positions of galaxies from PS1, we build a common reference frame for the multi-epoch PS1, single-epoch SDSS and 2MASS data, and calibrate the data in small angular patches to this frame. As the Gaia DR1 excludes resolved galaxy images, we choose a different approach to calibrate its positions to this reference frame: we exploit the fact that the proper motions of stars in these patches are {\it linear}. By simultaneously fitting the positions of stars at different epochs of -- Gaia DR1, PS1, SDSS, and 2MASS -- we construct an extensive catalog of proper motions dubbed GPS1. GPS1 has a characteristic systematic error of less than 0.3 \masyr\, and a typical precision of $ 1.5-2.0$\masyr. The proper motions have been validated using galaxies, open clusters, distant giant stars and QSOs. In comparison with other published faint proper motion catalogs, GPS1's systematic error ($<0.3$ \masyr) should be nearly an order of magnitude better than that of PPMXL and UCAC4 ($>2.0$ \masyr). Similarly, its precision ($\sim 1.5$ \masyr) is a four-fold improvement relative to PPMXL and UCAC4 ($\sim 6.0$ \masyr). For QSOs, the precision of GPS1 is found to be worse ($\sim 2.0-3.0$\masyr), possibly due to their particular differential chromatic refraction (DCR). The GPS1 catalog will be released on-line and available via the VizieR Service and VO Service. (===GPS1 is available with VO TAP Query now, see http://www2.mpia-hd.mpg.de/~tian/GPS1/ for details=== )

## Full text

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## Figures

45 figures with captions in the complete paper: https://tomesphere.com/paper/1703.06278/full.md

## References

49 references — full list in the complete paper: https://tomesphere.com/paper/1703.06278/full.md

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Source: https://tomesphere.com/paper/1703.06278