Potential topics include: (1) Advanced numerical modelling
of magnetic flux tubes / loops in the low
solar atmosphere (2) Forward modelling of spectroscopic and narrowband EUV observations of the low solar atmosphere, (3) Solar Rotational Tomography of EUV and / or coronagraph coronal observations, (4) Automated detection and prediction of coronal mass ejections, (5) Analysis of solar wind turbulence observations by in situ spacecraft, (6) Eclipse instrumentation, observations and data anal
solar atmosphere (2) Forward modelling
of spectroscopic and narrowband EUV
observations of the low
solar atmosphere, (3) Solar Rotational Tomography of EUV and / or coronagraph coronal observations, (4) Automated detection and prediction of coronal mass ejections, (5) Analysis of solar wind turbulence observations by in situ spacecraft, (6) Eclipse instrumentation, observations and data anal
solar atmosphere, (3)
Solar Rotational Tomography of EUV and / or coronagraph coronal observations, (4) Automated detection and prediction of coronal mass ejections, (5) Analysis of solar wind turbulence observations by in situ spacecraft, (6) Eclipse instrumentation, observations and data anal
Solar Rotational Tomography
of EUV and / or coronagraph coronal
observations, (4) Automated detection and prediction
of coronal mass ejections, (5) Analysis
of solar wind turbulence observations by in situ spacecraft, (6) Eclipse instrumentation, observations and data anal
solar wind turbulence
observations by in situ spacecraft, (6)
Eclipse instrumentation,
observations and data analysis.
We discuss the East Asian naked - eye sunspot
observations, the telescopic
solar observations, the fraction
of sunspot active days, the latitudinal extent
of sunspot positions, auroral sightings at high latitudes, cosmogenic radionuclide data as well as
solar eclipse observations for that period.