SBIR/STTR Award attributes
The enhancement of the geomagnetic cutoff models inside of the Space Ionizing Radiation Environments and Effects (SIRE2) tool will evaluate and expand on our geomagnetic cutoff modeling as an extension of our previous work. This proposal will also adapt the current geomagnetic cutoff modeling software to be driven by the Dst index rather than the Kp index to better reflect the ring current effects. These improved geomagnetic cutoff modeling timelines will be compared to geomagnetic cutoff measurements for a selected Solar Particle Event (SPE).This proposal is submitted to the Space Weather Research-to-Operations/Operations-to-Research (R2O/O2R) Technology Development subtopic and will provide key research that can be used to improve future geomagnetic cutoff models. Specifically, this research can be included in the next iteration of the Smart Shea model (circa 2025) to enhance the geomagnetic cutoff modeling of the SIRE2 toolkit. This will provide mission designers, planners, and mission operators with advanced geomagnetic cutoff modeling techniques. Once incorporated into a tool like SIRE2, these advancements will provide improved modeling of the energetic particle environment within the Earthrsquo;s magnetosphere.This Phase I proposal will result in demonstrations that illustrate the improvements that can be made to the geomagnetic cutoff models by driving the model by the Dst index rather than the Kp Index and using finer Dst levels to create the cutoff grids. In addition, these improvements of the geomagnetic cutoff modeling timeliness will be compared to geomagnetic cutoff measurements for a selected SPE to illustrate the improvements in these techniques.
