The existence of the Sun’s hot atmosphere and the solar wind acceleration continues to be an outstanding problem in solar-astrophysics. Although magnetohydrodynamic (MHD) modes and dissipation of magnetic energy contribute to heating and the mass cycle of the solar atmosphere, yet direct evidence of such processes often generates debate. Ground-based 1-m Swedish Solar Telescope (SST)/CRISP, Hα 6562.8 Å observations reveal, for the first time, the ubiquitous presence of high frequency (~12–42 mHz) torsional motions in thin spicular-type structures in the chromosphere. We detect numerous oscillating flux tubes on 10 June 2014 between 07:17 UT to 08:08 UT in a quiet-Sun field-of-view of 60” × 60” (1” = 725 km). Stringent numerical model shows that these observations resemble torsional Alfvén waves associated with high frequency drivers which contain a huge amount of energy (~105 W m−2) in the chromosphere. Even after partial reflection from the transition region, a significant amount of energy (~103 W m−2) is transferred onto the overlying corona. We find that oscillating tubes serve as substantial sources of Alfvén wave generation that provide sufficient Poynting flux not only to heat the corona but also to originate the supersonic solar wind.
展开▼
机译:太阳热大气的存在和太阳风的加速继续是太阳天体物理学中的突出问题。尽管磁流体动力学(MHD)模式和磁能耗散会导致加热和太阳大气的质量循环,但是这种过程的直接证据经常引起争议。地面1米的瑞典太阳望远镜(SST)/ CRISP,Hα6562.8Å观测首次揭示了色球薄层状结构中普遍存在高频率(〜12–42 mHz)扭转运动。我们在2014年6月10日UT(格林尼治标准时间)07:17到08:08 UT之间在60“×60”(1 = 725 km)的安静阳光视野中检测到许多振荡通量管。严格的数值模型表明,这些观测结果类似于与高频驱动器相关的扭转阿尔夫芬波,该驱动器在色球层中包含大量能量(〜10 5 W m -2 )。即使在过渡区域发生部分反射之后,大量的能量(〜10 3 W m -2 )也会转移到上面的日冕上。我们发现,振荡管是Alfvén波产生的重要来源,不仅提供了足够的Poynting通量来加热日冕,而且还产生了超音速的太阳风。
展开▼
