
CCOR-1 is a unique instrument being the first operational dedicated coronagraph to support space weather forecasting. It is also the first coronagraph to fly in geostationary orbit around Earth, and this leads to a number of unique features to its observations. Other coronagraphs have observed from the Lagrange-1 point, 1.5 million kilometers away from Earth in the direction of the Sun, well beyond the orbit of the Moon. Since CCOR-1 rides on the GOES-19 satellite, well within the Moon’s orbit, the Moon sometimes makes appearances in the field of view. The combined motion of GOES-19 and the Moon can make it seem to have curved or even looping paths. Another consequence of its proximity to Earth is sunlight that is reflected from the Earth’s natural albedo (e.g. clouds, snow, ice, oceans, etc.) can impact CCOR-1 observations. This reflected sunlight, called Earthshine, impacts CCOR-1 observations primarily during sunrise hours and the degree of the impact depends on the time of year. The effects are most pronounced around the equinoxes in March and September and gradually decay into the solstices. During periods around the equinoxes the Earth can block the sun from CCOR-1’s field of view and in difference images CCOR-1 is sensitive enough to show the nighttime city lights on the planet below. And of course, the CCOR-1 will show the usual moving objects in space, such as planets, comets, satellites, and maybe, once in a while, a tiny piece of space debris. There are also static or fixed artifacts, such as the dark “collar” around the base of the occulting disk that can be seen when the background is bright. Scientists are working to mitigate Earthshine.