Rice University Solar Physics Research Group
Software developed by the solar physics research group at Rice University, Houston, TX.
Houston, TX
Pinned Repositories
apolloDB
Atomic database for hydrodynamic codes in solar physics
EBTEL
Enthalpy-Based Thermal Evolution of Loops (EBTEL) model coded in the IDL language by J. A. Klimchuk, S. Patsourakos, and P.J. Cargill
ebtelPlusPlus
Extension of the Enthalpy Based Thermal Evolution of Loops (EBTEL) model to solve the two-fluid equations to allow for decoupling of electron and ion fluids.
group_webpage
Rice Solar Physics research group webpage
hot_plasma_single_nanoflares
Text and figures for the paper Inference of Heating Properties from "Hot" Non-flaring Plasmas in Active Region Cores I. Single Nanoflares, Barnes et al. (2016)
HYDRAD
HYDrodynamics and RADiation Code for computing solutions to field-aligned hydrodynamic equations in coronal loops
IonPopSolver
Code for computing effective temperature and ion population fractions from temperature and density timeseries.
pydrad
Python tools for setting up HYDRAD runs and parsing output
synthetic-observables-paper-models
Part 1 of a series of papers on computing synthetic observables for varying nanoflare heating frequencies
synthetic-observables-paper-observations
Part 2 of a series of two papers on computing synthetic observables for various impulsive heating models
Rice University Solar Physics Research Group's Repositories
rice-solar-physics/ebtelPlusPlus
Extension of the Enthalpy Based Thermal Evolution of Loops (EBTEL) model to solve the two-fluid equations to allow for decoupling of electron and ion fluids.
rice-solar-physics/EBTEL
Enthalpy-Based Thermal Evolution of Loops (EBTEL) model coded in the IDL language by J. A. Klimchuk, S. Patsourakos, and P.J. Cargill
rice-solar-physics/HYDRAD
HYDrodynamics and RADiation Code for computing solutions to field-aligned hydrodynamic equations in coronal loops
rice-solar-physics/hot_plasma_single_nanoflares
Text and figures for the paper Inference of Heating Properties from "Hot" Non-flaring Plasmas in Active Region Cores I. Single Nanoflares, Barnes et al. (2016)
rice-solar-physics/pydrad
Python tools for setting up HYDRAD runs and parsing output
rice-solar-physics/synthetic-observables-paper-models
Part 1 of a series of papers on computing synthetic observables for varying nanoflare heating frequencies
rice-solar-physics/synthetic-observables-paper-observations
Part 2 of a series of two papers on computing synthetic observables for various impulsive heating models
rice-solar-physics/apolloDB
Atomic database for hydrodynamic codes in solar physics
rice-solar-physics/group_webpage
Rice Solar Physics research group webpage
rice-solar-physics/hot_plasma_nanoflare_trains
Text and figures for the paper Inference of Heating Properties from "Hot" Non-flaring Plasmas in Active Region Cores II. Nanoflare Trains, Barnes et al. (2016)
rice-solar-physics/IonPopSolver
Code for computing effective temperature and ion population fractions from temperature and density timeseries.
rice-solar-physics/rsp_toolkit
General purpose C++ utilities used in models maintained by the solar physics group at Rice University
rice-solar-physics/deprecated_EBTEL
Deprecated EBTEL code
rice-solar-physics/EBTEL3
Modified version of the Enthalpy-Based Thermal Evolution of Loops model accounting for kinetic energy as described in Abhishek Rajhans et al. 2022 ApJ 924 13
rice-solar-physics/Radiation_Model
Generalized radiation model for correctly treating radiative losses and fractional ionization of many elements/ions in the solar corona
rice-solar-physics/shine-2018
Info page for the SHINE 2018 session "Signatures of Time-dependent Heating in Active Regions and the Slow Solar Wind "