Work Description

Title: Data Pertaining to Initial Simulations Using the Conductance Model for Extreme Events Open Access Deposited

http://creativecommons.org/licenses/by-nc/4.0/
Attribute Value
Methodology
  • The data are simulation setup and results from space weather simulations conducted using the Space Weather Modeling Framework (SWMF) driven with the Conductance Model for Extreme Events (CMEE). The data also include observations from various in-situ and ground-based measurements of the global state of the near-Earth space environment.
Description
  • An updated auroral conductance module is built for global models, using nonlinear regression & empirical adjustments to span extreme events.

  • Expanded dataset raises the ceiling of conductance values, impacting the ionospheric potential dB/dt & dB predictions during extreme events.

  • Application of the expanded model with empirical adjustments refines the conductance pattern, and improves dB/dt predictions significantly.
Creator
Depositor
  • agnitm@umich.edu
Contact information
Discipline
Funding agency
  • National Science Foundation (NSF)
  • National Aeronautics and Space Administration (NASA)
Keyword
Citations to related material
  • Mukhopadhyay, A., et al. (2020). Conductance Model for Extreme Events : Impact of Auroral Conductance on Space Weather Forecasts. Forthcoming.
Resource type
Last modified
  • 05/15/2020
Published
  • 05/15/2020
Language
DOI
  • https://doi.org/10.7302/nwxp-g551
License
To Cite this Work:
Mukhopadhyay, A., Daniel T Welling, Michael W Liemohn, Aaron J Ridley, Shibaji Chakrabarty, Brian J Anderson (2020). Data Pertaining to Initial Simulations Using the Conductance Model for Extreme Events [Data set]. University of Michigan - Deep Blue. https://doi.org/10.7302/nwxp-g551

Relationships

Files (Count: 13; Size: 8.36 GB)

README
======

Zipped files starting with SET_*.tar contains all the simulation files and results
from the SWPCTEST runs simulated using 8 variants of the SWMF's ionospheric conductance
module. These 8 variants are listed in the following.

Abbreviations - Space Weather Modeling Framework (SWMF), Ridley Legacy Model
(RLM), Conductance Model for Extreme Events (CMEE), Oval Adjustment (OA),
Space Weather Prediction Center Testing Suite (SWPCTEST; Pulkkinen et al. 2013)

SET A - SWMF driven using RLM without OA
SET B - SWMF driven using CMEE without OA
SET C - SWMF driven using RLM with OA
SET D - SWMF driven using CMEE with OA
SET E - SWMF driven using RLM without OA (HiRes)
SET F - SWMF driven using CMEE without OA (HiRes)
SET G - SWMF driven using RLM with OA (HiRes)
SET H - SWMF driven using CMEE with OA (HiRes)

In these folders, the ionospheric domain results can be found in
run_event*/IE/ionosphere, while the magnetospheric results can be found in
run_event*/GM/IO2. For post processed results, please refer to the
Combined_Data directory.

For any discrepancy or additional information, please contact:
Agnit Mukhopadhyay (agnitm@umich.edu)

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