HMI/AIA Science Team Meeting, 2006 1 HMI Science Goals Alexander Kosovichev & HMI Team.

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Presentation transcript:

HMI/AIA Science Team Meeting, HMI Science Goals Alexander Kosovichev & HMI Team

HMI/AIA Science Team Meeting, Primary goal: origin of solar variability The primary goal of the Helioseismic and Magnetic Imager (HMI) investigation is to study the origin of solar variability and to characterize and understand the Sun’s interior and the various components of magnetic activity. HMI produces data to determine the interior sources and mechanisms of solar variability and how the physical processes inside the Sun are related to surface and coronal magnetic fields and activity.

HMI/AIA Science Team Meeting, Illustration of solar dynamo

HMI/AIA Science Team Meeting, Convection-zone dynamics and solar dynamo Structure and dynamics of the tachocline Variations in differential rotation. Evolution of meridional circulation. Dynamics in the near-surface shear layer. 2.Origin and evolution of sunspots, active regions and complexes of activity Formation and deep structure of magnetic complexes. Active region source and evolution. Magnetic flux concentration in sunspots. Sources and mechanisms of solar irradiance variations. 3.Sources and drivers of solar activity and disturbances Origin and dynamics of magnetic sheared structures and delta-type sunspots. Magnetic configuration and mechanisms of solar flares and CME. Emergence of magnetic flux and solar transient events. Evolution of small-scale structures and magnetic carpet. 4. Links between the internal processes and dynamics of the corona and heliosphere Complexity and energetics of solar corona. Large-scale coronal field estimates. Coronal magnetic structure and solar wind 5.Precursors of solar disturbances for space-weather forecasts Far-side imaging and activity index. Predicting emergence of active regions by helioseismic imaging. Determination of magnetic cloud Bs events. Primary Science Objectives

HMI/AIA Science Team Meeting, HMI Major Science Objectives 1.B – Solar Dynamo 1.C – Global Circulation 1.D – Irradiance Sources 1.H – Far-side Imaging 1.F – Solar Subsurface Weather 1.E – Coronal Magnetic Field 1.I – Magnetic Connectivity 1.J – Sunspot Dynamics 1.G – Magnetic Stresses 1.A – Interior Structure NOAA 9393 Far- side

HMI/AIA Science Team Meeting,

7 HMI Science Analysis Plan Magnetic Shear Tachocline Differential Rotation Meridional Circulation Near-Surface Shear Layer Activity Complexes Active Regions Sunspots Irradiance Variations Flare Magnetic Configuration Flux Emergence Magnetic Carpet Coronal energetics Large-scale Coronal Fields Solar Wind Far-side Activity Evolution Predicting A-R Emergence IMF Bs Events Brightness Images Global Helioseismology Processing Local Helioseismology Processing Version 1.0w Filtergrams Line-of-sight Magnetograms Vector Magnetograms Doppler Velocity Continuum Brightness Line-of-Sight Magnetic Field Maps Coronal magnetic Field Extrapolations Coronal and Solar wind models Far-side activity index Deep-focus v and c s maps (0-200Mm) High-resolution v and c s maps (0-30Mm) Carrington synoptic v and c s maps (0-30Mm) Full-disk velocity, v(r,Θ,Φ), And sound speed, c s (r,Θ,Φ), Maps (0-30Mm) Internal sound speed, c s (r,Θ) (0<r<R) Internal rotation Ω(r,Θ) (0<r<R) Vector Magnetic Field Maps Science Objective Data Product Processing Observables HMI Data

HMI/AIA Science Team Meeting, Key Features of HMI Science Plan Data analysis pipeline: standard helioseismology and magnetic field analyses Development of new approaches to data analysis Targeted theoretical and numerical modeling Focused data analysis and science working groups Joint investigations with AIA and EVE Cooperation with other space- and ground- based projects (SOHO, Solar-B, PICARD, STEREO, RHESSI, GONG+, SOLIS, etc)