Mitigation of LEO Satellite Brightness and Trail Effects on the Rubin Observatory LSST

We report studies on the mitigation of optical effects of bright low-Earth-orbit (LEO) satellites on Vera C. Rubin Observatory and its Legacy Survey of Space and Time (LSST). These include options for pointing the telescope to avoid satellites, laboratory investigations of bright trails on the Rubin...

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Veröffentlicht in:	arXiv.org 2020-11
Hauptverfasser:	Tyson, J Anthony, Ivezić, Željko, Bradshaw, Andrew, Rawls, Meredith L, Xin, Bo, Yoachim, Peter, Parejko, John, Greene, Jared, Sholl, Michael, Abbott, Timothy M C, Polin, Daniel
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Schlagworte:	Algorithms Background noise Darkening Data analysis Ground-based observation Impact analysis Low earth orbit satellites Low earth orbits Observatories Physics - Instrumentation and Methods for Astrophysics Point spread functions Satellite constellations Satellite observation Surface brightness
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description	We report studies on the mitigation of optical effects of bright low-Earth-orbit (LEO) satellites on Vera C. Rubin Observatory and its Legacy Survey of Space and Time (LSST). These include options for pointing the telescope to avoid satellites, laboratory investigations of bright trails on the Rubin Observatory LSST camera sensors, algorithms for correcting image artifacts caused by bright trails, experiments on darkening SpaceX Starlink satellites, and ground-based follow-up observations. The original Starlink v0.9 satellites are g ~ 4.5 mag, and the initial experiment "DarkSat" is g ~ 6.1 mag. Future Starlink darkening plans may reach g ~ 7 mag, a brightness level that enables nonlinear image artifact correction to well below background noise. However, the satellite trails will still exist at a signal-to-noise ratio ~ 100, generating systematic errors that may impact data analysis and limit some science. For the Rubin Observatory 8.4-m mirror and a satellite at 550 km, the full width at half maximum of the trail is about 3" as the result of an out-of-focus effect, which helps avoid saturation by decreasing the peak surface brightness of the trail. For 48,000 LEOsats of apparent magnitude 4.5, about 1% of pixels in LSST nautical twilight images would need to be masked.
doi_str_mv	10.48550/arxiv.2006.12417
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subjects	Algorithms Background noise Darkening Data analysis Ground-based observation Impact analysis Low earth orbit satellites Low earth orbits Observatories Physics - Instrumentation and Methods for Astrophysics Point spread functions Satellite constellations Satellite observation Surface brightness
title	Mitigation of LEO Satellite Brightness and Trail Effects on the Rubin Observatory LSST
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