NRLMSISE-00
NRLMSISE-00 is an empirical, global reference atmospheric model of the Earth from ground to space.<ref>Template:Cite journal</ref> It models the temperatures and densities of the atmosphere's components. A primary use of this model is to aid predictions of satellite orbital decay due to atmospheric drag. This model has also been used by astronomers to calculate the mass of air between telescopes and laser beams in order to assess the impact of laser guide stars on the non-lasing telescopes.<ref>Coulson, Dolores M. & Roth, Katherine C., Adaptive Optics Systems II. Edited by Ellerbroek, Brent L.; Hart, Michael; Hubin, Norbert; Wizinowich, Peter L. Proceedings of the SPIE, Volume 7736, pp. 773652-773652-9 (2010)</ref>
DevelopmentEdit
The model, developed by Mike Picone, Alan Hedin, and Doug Drob, is based on the earlier models MSIS-86 and MSISE-90, but updated with actual satellite drag data. It also predicts anomalous oxygen.
NRL stands for the US Naval Research Laboratory. MSIS<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> stands for mass spectrometer and incoherent scatter radar, the two primary data sources for development of earlier versions of the model. E indicates that the model extends from the ground through exosphere and 00 is the year of release.
Over the years since introduction, NRLMSISE-00 has become the standard for international space research.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Input and outputEdit
The inputs for the model are:
- Year and day
- time of day
- geodetic altitude from 0 to 1,000 km
- geodetic latitude
- longitude
- local apparent solar time
- 81-day average of F10.7 solar flux
- daily F10.7 solar flux for previous day
- Daily magnetic index
The outputs of the model are:
- Helium number density
- Oxygen (O) number density
- Oxygen (O2) number density
- Nitrogen (N) number density
- Nitrogen (N2) number density
- Argon (Ar) number density
- Hydrogen (H) number density
- total mass density
- Anomalous oxygen number density
- Exospheric temperature
- temperature at altitude
See alsoEdit
- Static atmospheric model
- International Standard Atmosphere links to 1976 standard.
ReferencesEdit
External linksEdit
- Publication
- Interactive Visualization
- C and Fortran source code
- F90 source code
- MATLAB mex bridge
- Java code in Orekit space dynamics library