Chromospheric upflow events associated with transition region explosive events

Transition region explosive events are considered to be a manifestation of small-scale magnetic reconnection ubiquitously occurring-even in the quiet Sun. In this paper, we report a close association between transition region explosive events and chromospheric upflow events seen in Ha. From a comparison of the Big Bear Solar Observatory (BBSO) H alpha spectrograph data and the Solar and Heliospheric Observatory (SOHO)I Solar Ultraviolet Measurements of Emitted Radiation (SUMER) data, we found a succession of chromospheric upflow events at sites where repeated explosive events occurred. Individual chromospheric events appear as compact dark features that are best visible in H alpha-0.5 Angstrom and that have a size of 2 "-3 " and a lifetime of 1-2 minutes. They are characterized by an upward motion of 15-30 km s(-1), a temperature of 10(4) K, a mass density of 1 x 10(-13) g, and a nonthermal velocity less than 10 km s(-1). Unlike spicules, which display descending motion following their ascending phase, these upflow events are not followed by noticeable redshifts. "H alpha jets" at -1.0 Angstrom studied by Wang et al. appear to be a special case of this kind of chromospheric upflow event. The physical characteristics of chromospheric upflow events and their close association with transition region explosive events suggest that chromospheric upflow events may be the manifestation of cool plasma material flowing into magnetically diffusive regions, while explosive events represent hot plasma material flowing out of the same regions.