Heliospheric Computations Dusan Odstrcil University of Colorado/CIRES and NOAA/Space Environment Center Solar MURI Team Meeting, Berkeley CA, December 5, 2002
Heliospheric Computations Dusan Odstrcil University of Colorado/CIRES and NOAA/Space Environment Center Solar MURI Team Meeting, Berkeley CA, December.
Dec 14, 2015
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Heliospheric Computations
Dusan Odstrcil
University of Colorado/CIRES and NOAA/Space Environment Center
Solar MURI Team Meeting, Berkeley CA, December 5, 2002
Outline
• Programming Activities
• Merging of Coronal and Heliospheric Models
- requirements for coupled simulations
- first 3-D coupled simulations
• Incorporation of More Realistic Ambient Solar Wind
- validation and calibration studies
• Interfacing with Other Models
- driving magnetospheric LFM model (Mike Wiltberger)
- providing results for SEP computations (Ilan Roth)
- acceleration of electrons (Marek Vandas)
Programming Activities
• (A) Graphical User Interface
- Model specification and compilation
- Initial and boundary conditions
- Remote computations, pre-views, data transfers
• (B) Code modernization
- New FORTAN standard
- HDF-5 data format
- CVS for source code
Coronal & Heliospheric Computations
SDSC, San Diego, CA NCAR/SCD, Boulder, CO
Requirements for Coupled Simulations
• Input Data
- 8 variables (2x120x180 cells) = 2.7 MBytes
- 400 time levels (1h interval) = 1 GByte
• Output Data
- 8 variables (256x120x180 cells) = 340 Mbytes
- 50 time levels (2h interval) = 17 GByte
- visualization = + 10-30 GByte
Interplanetary Transient Disturbance
Magnetic Field Disturbance
Solar eruption evolves into a traveling disturbance of interplanetary magnetic field that significantly exceeds its original angular size
Interplanetary Magnetic Flux Rope
Disturbed Magnetic Field
Interplanetary Magnetic Flux Rope
Flux rope (white lines) is initially connected to the Sun, but magnetic field lines reconfigure during its propagation. Color shows density in the equatorial plane. Black circle is boundary between the coronal and heliospheric regions (30 Rs).
Flux Rope Connected to Sun
N, T, and Bphi in the equatorial plane and model interface seen from below. (Computations are not performed for +-30 deg from the poles). Magnetic field is traced back to Sun.
Flux Rope Disconnects
The same but 20 hours later. Magnetic field lines (tracing starts from the heliosphere) does not reach the Sun; they reconfigure in the coronal region.
Connectivity of Magnetic Field Lines
Ambient Solar Wind
Ambient Solar Wind
Ambient Solar Wind
Shock-Cloud Interaction
Related Documents
