Possible cool prominence materials detected within interplanetary small magnetic flux ropes
J. M. Wang, H. Q. Feng, H. B. Li, A. K. Zhao, Z. J. Tian, G. Q. Zhao,, Y. Zhao, and Q. Liu

TL;DR
This study investigates the presence of cool prominence materials within interplanetary small magnetic flux ropes (SMFRs) using ACE spacecraft data, providing evidence linking small CMEs, flares, and prominence eruptions.
Contribution
It offers the first observational evidence of cool prominence materials embedded in SMFRs, suggesting a connection between small CMEs and prominence eruptions.
Findings
13 SMFRs showed low-charge-state signatures of prominence materials
One SMFR had signatures of high ionic charge states
SDO/AIA confirmed a CME associated with a small eruptive prominence
Abstract
Previous studies indicate that interplanetary small magnetic flux ropes (SMFRs) are manifestations of microflare-associated small coronal mass ejections (CMEs), and the hot material with high charge states heated by related microflares are found in SMFRs. Ordinary CMEs are frequently associated with prominence eruptions,and cool prominencematerialsare found within some magnetic clouds (MCs). Therefore, the predicted small CMEs may also be frequently associated with small prominence eruptions. In this work, we aim to search for cool prominence materials within SMFRs.We examined all the O5+ and Fe6+ fraction data obtained by the Advanced Composition Explorer spacecraft during 1998 to 2008 and found that 13 SMFRs might exhibit low-charge-state signatures of unusual O5+and/or Fe6+abundances.One of the 13 SMFRs also exhibited signatures of high ionic charge states. We also reported a SMFR…
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