Working Group 1
Data group led by Jie Zhang (USA) and Christian Moestl (Austria)
Contents
- 1 Scientific Objectives
- 2 Scientific Questions
- 3 Special Events (with WG3 simulation and WG4 campaign events)
- 4 Methods
- 4.1 How to measure 3-D geometric and kinematic properties of CMEs in the corona, e.g., FOVs of COR1, COR2 and HI-1?
- 4.2 How to measure 3-D geometric and kinematic properties of CMEs far from the Sun, e.g., FOVs of HI-2?
- 4.3 How to reconstruct the 3-D structure of ICMEs from in-situ observations?
- 4.4 How to measure the geomagnetic effects?
- 5 Progress at workshop in Hvar June 2013
- 6 Future Plan
Scientific Objectives
- Identify all Earth-Affecting ICMEs during the STEREO era (2007-today)
- Track these events from the Sun to the Earth, and fully measure, characterize and quantify their properties and evolution from the Sun to the Earth
- Provide a comprehensive event database for statistical study, for creating empirical evolution and prediction models, for theoretical understanding, and for comparing and validating numerical models
Scientific Questions
What are the criteria of Earth-affecting CMEs?
What are the main CME parameters which can be derived from remote and in situ CME observations?
How reliably can we link solar to in situ CME observations?
How well can we forecast the ICME parameters from remote observations?
What is the cause of "stealth" CMEs, i.e., CMEs without clear surface signature?
What is the cause of "problematic" ICMEs, i.e., ICMEs without clear CME counterparts near the Sun?
Can we find examples of front-side full halo CMEs in C2, but have no ICME signatures at 1 AU? Does this kind of event exist or not?
.........
Special Events (with WG3 simulation and WG4 campaign events)
What are event periods which need special attention for linking solar to in situ observations?
- use simulation results from WG3, insights from WG4
- e.g. interacting events, very fast or very slow CMEs, or other special properties
- late July to early August 2010
- February 2011
- early March 2012
- July 2012
Methods
How to measure 3-D geometric and kinematic properties of CMEs in the corona, e.g., FOVs of COR1, COR2 and HI-1?
- croissant modeling a la Thernisien et al. (software available in IDL SolarSoft: "rtsccguicloud")
How to measure 3-D geometric and kinematic properties of CMEs far from the Sun, e.g., FOVs of HI-2?
- Geometrical modeling, approximating the CME front with geometrical shapes (points, circles). The IDL SolarSoft SATPLOT software can be used to extract and model time-elongation tracks of CMEs from STEREO/COR2/HI1/HI2 Jmaps.
How to reconstruct the 3-D structure of ICMEs from in-situ observations?
- shock analysis
- sizes of sheath regions, magnetic clouds
- categorization of magnetic structures into magnetic clouds, magnetic flux ropes, magnetic cloud-like, ejecta, complex ejecta
- flux rope modeling:
- minimum variance analysis
- Grad-Shafranov method (non-force-free)
- force-free cylindrical flux ropes
- new models?
How to measure the geomagnetic effects?
- geomagnetic indices (Dst, Kp)
Progress at workshop in Hvar June 2013
Goals for Hvar workshop
- understand in detail the parameters derived from observations
- learn how to use the wiki: for discussions, and to upload and link data
- verify the master list, identify and discuss unclear events (with WG3 simulation and WG4 campaign events)
WG1 Presentations at the Hvar Workshop 2013
- Ewa Chmielewska: Solar eruptions observed by the Atmospheric Imaging Assembly (AIA) on board the Solar Dynamics Observatory
- Yuming Wang: Do we need to correct projection effect for halo CMEs in terms of space weather forecasting?
- Philippe Lamy: ARTEMIS II: A Second Generation Catalog of LASCO Coronal Mass Ejections
- Li Feng: Reconstruct the 3D CME morphology with a mask-fitting method
- Manuela Temmer: Interaction process of the CME-CME event from February 14-15, 2011
- Chenglong Shen: Deflected propagation of the 2008 September 13 CME in the heliosphere
- Christian Moestl: Connecting remote to in situ observations of 22 coronal mass ejections from the Sun to 1 AU
- Alexis Ruffenach: Statistical analysis of magnetic cloud erosion by magnetic reconnection
- Nadya Nikolaeva: Magnetic storm generation by various types of solar wind: event catalog, modeling and prediction