Connecting the Low to High Corona: Propagating Disturbances as Tracers of the Near-Sun Solar Wind

Abstract

We revisit a quiet 14-day period of solar minimum during January 2008 and track sub-streamer propagating disturbances (PDs) from low heights in STEREO/EUVI to the extended corona through STEREO/COR1 and into STEREO/COR2 along nonradial paths that trace the structure of the underlying streamers. Using our recently developed method for generating nonradial Height-Time profiles of outward PDs (OPDs) and inward PDs (IPDs), we obtained their velocities along the radial and position angle directions. Our analysis of 417 unique OPDs revealed two classes: slow and fast OPDs. Slow OPDs form preferentially at ≈1.6 R closer to the streamer boundaries, with asymmetric occurrence rates, and show speeds of 16.4-8.4+26.6km/s at 1.5 R and accelerate up to 200.1-57.9+71.1km/s at 7.5 R. Fast OPDs form preferentially at ≈ 1.6 R and at ≈3.0 R both at the streamer boundaries and slightly more often within them. They show speeds of 87.8-24.8+59.1km/s at 1.5 R up to 197.8-46.7+61.8km/s at 7.5 R. IPDs are observed forming at ≈1.8 R with speeds of tens of km/s, mostly concentrated in the aftermath of a CME eruption. We present an example in which we show that periodic brightness variations related to OPDs remained in the range of 98 to 128 min, down to ≈2.0 R, well within the field of view of COR1. The velocity profiles of slow OPDs for heliocentric height below 3.0 R show good agreement with speeds more closely related to the bulk solar wind obtained via interplanetary scintillation.