What Causes Faint Solar Coronal Jets from Emerging Flux Regions in Coronal Holes?

TL;DR

This study investigates the origins of faint EUV coronal jets from emerging flux regions in coronal holes, finding most are linked to magnetic flux convergence and reconnection, but not directly caused by emergence-driven reconnection.

Contribution

It provides detailed observations showing faint jets are mostly associated with flux convergence and reconnection, challenging previous assumptions about emergence-driven jet formation.

Findings

Most faint jets originate from converging opposite-polarity flux sites.

Faint jets are generally narrower and less bright than typical jets.

Emergence-driven reconnection does not unambiguously produce these faint jets.

Abstract

Using EUV images and line-of-sight magnetograms from Solar Dynamics Observatory, we examine eight emerging bipolar magnetic regions (BMRs) in central-disk coronal holes for whether the emerging magnetic arch made any noticeable coronal jets directly, via reconnection with ambient open field as modeled by Yokoyama and Shibata (1995). During emergence, each BMR produced no obvious EUV coronal jet of normal brightness, but each produced one or more faint EUV coronal jets that are discernible in AIA 193 {\AA} images. The spires of these jets are much fainter and usually narrower than for typical EUV jets that have been observed to be produced by minifilament eruptions in quiet regions and coronal holes. For each of 26 faint jets from the eight emerging BMRs, we examine whether the faint spire was evidently made a la Yokoyama and Shibata (1995). We find: (1) 16 of these faint spires evidently originate from sites of converging opposite-polarity magnetic flux and show base brightenings like those in minifilament-eruption-driven coronal jets, (2) the 10 other faint spires maybe were made by a burst of the external-magnetic-arcade-building reconnection of the emerging magnetic arch with the ambient open field, reconnection directly driven by the arch's emergence, but (3) none were unambiguously made by such emergence-driven reconnection. Thus, for these eight emerging BMRs the observations indicate that emergence-driven external reconnection of the emerging magnetic arch with ambient open field at most produces a jet spire that is much fainter than in previously-reported, much more obvious coronal jets driven by minifilament eruptions.