2.2.6 spase://CDPP/NumericalData/AMDA/MGS/PROXY/mgs-proxy-euv euv Extreme Ultraviolet Proxy 2015-10-12T10:48:29Z The F10.7 radio flux measured at Earth is used to estimate the solar EUV flux from 2-100 nm at Earth. These values are then scaled to Mars' orbital distance from the Sun using a 1/r2 scaling, and time-shifted to account for the solar longitude difference between the Earth and Sun. A 26-day solar rotation rate is assumed. spase://CDPP/Person/David.Brain TechnicalContact MGS Proxy webpage http://sprg.ssl.berkeley.edu/~brain/proxies/euvproxy.html spase://SMWG/Repository/CDPP/AMDA Online Open AMDA at CDPP http://amda.cdpp.eu NetCDF David Brain spase://CDPP/Instrument/AMDA/MGS/PROXY Irradiance 1999-01-01T00:00:00Z 2006-12-31T22:00:00Z PT1H PT2H Mars The EUV proxy relies on a number of assumptions, not least of which is extrapolation and time-shifting of observations from Earth to Mars. Please use appropriate caution when using the information on this page. We favor use of the EUV proxy for statistical studies (e.g. comparing observations made during high EUV time periods to low EUV time periods), rather than specific case studies. flux_earth mgs_euv_earth sfu 1.e-22 W/m2-Hz Photon EnergyFlux flux_mars mgs_euv_mars sfu 1.e-22 W/m2-Hz Photon EnergyFlux