报告主题:Magnetohydrodynamic Seismology of the Corona of the Sun
主 讲 人:Valery M Nakariakov 教授(华威大学)
主 持 人:丁春雨
时 间:2025年9月19日周五14:30
地 点:深圳大学致知楼706
嘉宾简介:
Valery Nakariakov,英国华威大学教授,是国际著名太阳物理学家,开拓和塑造太阳物理学的新学科——冕震学:利用磁流体动力学波诊断和探测太阳等离子体。曾任英国太阳物理委员会主席(2010-2013年)、欧洲物理学会理事(2012-2015年)、欧洲太阳物理分会主席(2011-2014年)。2023年以来,任国际天文学联合会(IAU)日地物理学科学委员会(SCOSTEP)的代表。Nakariakov教授在塑造现代太阳MHD冕震学方面起着关键作用,在Science正刊,Nature子刊,Physical Review Letters, Space Science Review等国际著名期刊发表300多篇SCI期刊论文,引用次数超过19400次,H因子为75(Google学术),是全球最引用率最高的太阳物理学家之一。2023年,获得了著名的欧洲研究理事会(ERC)高级研究员奖;2015年,荣获英国物理学会(IOP)佩恩-加波施金奖章,以表彰他“在太阳日冕磁流体活动的发现方面的领导力和重要贡献,以及在太阳物理学新分支磁流体动力学冕震学的创建和成功实施方面的贡献”。2024年,获英国皇家天文学会的查普曼奖章,以表彰其在太阳科学和行星科学领域的杰出贡献。
报告摘要:
Processes operating in the outer layers of the Sun’s atmosphere, the fully ionised, magnetically dominated plasma of the corona, remain one of the major unsolved puzzles in solar physics. Intensively debated research topics include the enigmatic problem of coronal heating; the rapid release of enormous amounts of magnetic energy in solar flares and coronal mass ejections; the microphysical mechanisms responsible for the efficient acceleration of charged particles; among others. The solar physics community is strongly supported by a range of ground-based and spaceborne observational facilities, which provide a wealth of high-precision data across the entire electromagnetic spectrum, from radio waves to gamma-rays. Nevertheless, several key parameters of the solar corona, such as the magnetic field, the heating function, and the effective coefficients of thermal conduction, viscosity, and resistivity remain inaccessible to direct observation. The method of magnetohydrodynamic (MHD) seismology, which infers plasma parameters from the properties of MHD waves, offers a paradigm-shifting diagnostic tool for probing the coronal plasma. Modern MHD seismology makes use of a range of MHD modes observed in different plasma structures to determine fundamental physical parameters of the corona and to diagnose the processes at work there. In this talk, we present the current state of the art in MHD seismology.
