There are 1 repository under magnetosphere topic.
pysat support for space weather indices and data sets
An efficient space physics data client for python
Model to automatically identify Cusp Ion-Energy Dispersion Events from DMSP satellite data, associated with publications da Silva et al. 2022 and 2024
A set of Python functions for processing and converting data in units of particle kinetic energy to units of particle rigidity (typically expressed in GV; gigavolts) and vice versa. This is frequently done in the field of solar system radiation physics.
AE-8/AP-8 Van Allen belt model in modern Fortran
A Python toolkit for calculating dose rates in Earth's atmosphere based on any incoming proton or alpha particle spectra, with any pitch angle distribution, and during any magnetospheric conditions.
A Python-based tool to simulate the effect of interplanetary charged particles and the van Allen belts on count rates and pulse height distributions in simple Cherenkov detectors in space.
Auroral oval model
Ion production rate of precipitating electrons
A simple python wrapper of N. A. Tsyganenko Fortran models and Geopack module
Replacement tool for GRMON, used for debugging the processor on the the SMILE (ESA/CAS mission) SXI.
This repository links to the paper, replication data, and programs for one of my publications.
The code was written for the completion of my SS project. The project involved a study of Jupiter's magnetosphere during compression by the solar wind. This code includes the creation of all the figures included in the report.
Investigation of Near Earth Space Environment with Satellite Data
Data Analysis as part of my Senior Sophistor Research Project
This repository links to the paper and replication data for one of my publications.
Introduction and link to my Ph.D. thesis on the aurora.
This repository links to the paper and replication data for one of my publications.
This repository links to the paper and replication data for one of my publications.
Calculate the time of flight dispersion of electron microburst precipitation observed by the FIREBIRD-II CubeSats.
Identify and quantify the duration of relativistic microbursts in the SAMPEX/HILT 20 ms data.