Richard Rast scite author profile

Excess power degradation on global positioning system (GPS) solar arrays has been ascribed to arc-induced contamination. Arcs have also been proposed as one source of spurious signals in Los Alamos National Laboratory's radiofrequency detectors on GPS satellites. Both ideas may be confirmed by detecting such arcs with large groundbased optical-and radiotelescopes. Correlation of these signals with each other and/or the event times onboard would cement both hypotheses. In this paper, preliminary positive results of a coordinated campaign of large optical-and radiotelescope observations on tracked GPS satellites are presented. Coordinated observations were carried out with the Arecibo 305 m and long wavelength array radiotelescopes and a 3.5 m optical telescope. Correlations of event rates, with predictions based on the U.S. Air Force, Aerospace, National Reconnaissance Office AE9/AP9/SPM empirical standard trapped radiation climatology model, show that daily variations in the undispersed event rates track variations in the charging electron flux with a delay appropriate for solar cell cover-glass conduction times. Additionally, Arecibo observations at 327 MHz show narrow autocorrelation features (∼140 μs wide) for one GPS satellite on two different days. Ground testing of a GPS-like solar array reveals arc voltage thresholds and contamination rates sufficient to produce the observed power degradation. Implications are discussed for GPS spacecraft and other satellites.

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The effect of spacecraft and space debris on astronomical observation

McNally¹,

Rast²

1999

Advances in Space Research

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Borel Complexity and Potential Canonical Scott Sentences

Ulrich¹,

Rast²,

Laskowski³

2015

Preprint

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The Case for Global Positioning System Arcing and High Satellite Arc Rates

Ferguson

White

Rast

et al. 2019

IEEE Trans. Plasma Sci.

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Richard Rast

The “Moon” flash of 1985 May 23 and orbital debris

Ground-Based Surveillance Campaign to Detect Global Positioning System Arcing: First Preliminary Results

The effect of spacecraft and space debris on astronomical observation

Borel Complexity and Potential Canonical Scott Sentences

The Case for Global Positioning System Arcing and High Satellite Arc Rates

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