RAM-SCB
Version: v.2.2The RAM‐SCB model includes two fully coupled modules: a kinetic ring current‐atmosphere interaction model (RAM) [Jordanova et al., 1994, 2006, 2010; Engel et al., 2019] self‐consistently coupled with a 3‐D equilibrium magnetic field (B) code [Zaharia et al., 2004, 2006, 2010; Engel et al., 2019]. It has been validated via a variety of spaceborne observations and geomagnetic indices [e.g., Yu et al., 2012, 2019]. The model determines the magnetic field configuration in three dimensions and the particle distribution functions Ql(R,ϕ,E,α) from bounce‐averaged Fokker‐Planck equations for both ring current ions and electrons in the equatorial plane: where Ql (l represents different species) is a function of radial distance (R), geomagnetic longitude (ϕ), energy (E), and pitch angle (α). The default grid spans 2 to 6.5 Re in radius with a spatial resolution of 0.25 Re, a longitude resolution of 15°. The energy grid is logarithmically-spaced (default 35 steps) between 0.15 and 400 keV, and the pitch angle grid covers 0 to 90° (default 72 linear steps).
Caveats:
This RoR version uses Kp-dependent Volland-Stern electric field and statistical plasma boundary models.
Inputs
Initial fluxes - usually taken from measurements at quiet times, such as from Van Allen Probes SCB's magnetic field boundary is usually taken from a magnetic field model or global MHD simulations RAM's plasma boundary is usually taken from GEO observations or other model outputs at 6.5 Re
Outputs
ion and electron fluxes (0.15 - 400 keV) as a function of radial distance, local time, energy, pitch angle; also time dependent 3-D magnetic field configurations
Model is time-dependent.
Domains
- Magnetosphere / Inner Magnetosphere / RingCurrent
Space Weather Impacts
- Near-earth radiation and plasma environment (aerospace assets functionality)
Phenomena
- Inner Magnetosphere Plasma and Field Dynamics
Publications
- Jordanova, V. K., J. U. Kozyra, G. V. Khazanov, A. F. Nagy, C. E. Rasmussen, and M.‐C. Fok (1994), A bounce‐averaged kinetic model of the ring current ion population, Geophys. Res. Lett., 21(25), 2785-2788. doi:10.1029/94GL02695.
- Jordanova, V. K., Y. S. Miyoshi, S. Zaharia, M. F. Thomsen, G. D. Reeves, D. S. Evans, C. G. Mouikis, and J. F. Fennell (2006), Kinetic simulations of ring current evolution during the Geospace Environment Modeling challenge events, J. Geophys. Res., 111, A11S10, doi:10.1029/2006JA011644.
- Jordanova, V. K., S. Zaharia, and D. T. Welling (2010), Comparative study of ring current development using empirical, dipolar, and self‐consistent magnetic field simulations, J. Geophys. Res., 115, A00J11, doi:10.1029/2010JA015671.
- Zaharia, S., C. Z. Cheng, and K. Maezawa (2004),3‐D force‐balanced magnetospheric configurations, Ann. Geophys., 22,251-265,https://doi.org/10.5194/angeo-22-251-2004
- Zaharia, S., V. K. Jordanova, M. F. Thomsen, and G. D. Reeves (2006), Self‐consistent modeling of magnetic fields and plasmas in the inner magnetosphere: Application to a geomagnetic storm, J. Geophys. Res., 111, A11S14, doi:10.1029/2006JA011619.
- Zaharia, S., V. K. Jordanova, D. Welling, and G. Tóth (2010), Self‐consistent inner magnetosphere simulation driven by a global MHD model, J. Geophys. Res., 115, A12228, doi: 10.1029/2010JA015915.
- Yu, Y., V. Jordanova, S. Zaharia, J. Koller, J. Zhang, and L. M. Kistler (2012), Validation study of the magnetically self‐consistent inner magnetosphere model RAM‐SCB, J. Geophys. Res., 117, A03222, doi: 10.1029/2011JA017321.
- Yu, Y., et al (2019), Initial Results From the GEM Challenge on the Spacecraft Surface Charging Environment, Space Weather, 17, 299-312.
- Engel, M. A., Morley, S. K., Henderson, M. G., Jordanova, V. K., Woodroffe, J. R., & Mahfuz, R. (2019). Improved simulations of the inner magnetosphere during high geomagnetic activity with the RAM-SCB model. Journal of Geophysical Research: Space Physics, 124, 4233–4248. doi:10.1029/2018JA026260
Code
Code Languages: Fortran
Relevant Links
Contacts
- Steven K Morley, LANL (Model Contact)
- Vania K Jordanova, LANL (Model Developer)
- Yihua Zheng, NASA GSFC CCMC (CCMC Model Host)
Publication Policy
Please acknowledge the software repository https://github.com/lanl/RAM-SCB and cite the code archive at https://doi.org/10.5281/zenodo.6977287
In addition to any model-specific policy, please refer to the General Publication Policy.