Date: Sat, 12 Oct 2002 19:18:25 +0200 From: Escudier Philippe To: Pascal Willis , Berthias Jean-Paul , "John C. Ries" Cc: Gilles Tavernier , Martine Feissel , "Jayles, Christian" , "Sengenes, Pierre" Subject: RE: satellite clock in the SAA region Hi John, I would like to come back on two points that you mentionned : - The effect is clearly non linear and non quadratic when the satellite enters the SAA. At this time due to the radiation effect there is a rapid change in the frequency drift so that the slope goes from -2E-10 / day outside the SAA up to few +10-9/day in the SAA. This explains the results you got, which were very useful for us to get a better understanding of the physical nature of the effect : * adjusting a slope is somehow efficient for beacons located in the middle of the SAA (it helps recovering this important drift which otherwise go in the tropo coefficient and / or station altitude and orbit solution and /or residuals). * adjusting a slope is not efficient for beacons located at the edge of SAA because there, the main effect is a sudden slope change during the pass, which is an effect going in the station latitude and/or orbit solution and/or residuals. Even for station in the middle of SAA as the exact shape is not a linear drift this slope cannot recover the complete effect, that is why we consider that beside the workaround that you have proposed and which proves to be very efficient for POD (underweighting those beacons), the only way to efficiently compensate from this effect for those beacons will be to use a radiation model (which may be very simple, just a function of latitude and longitude when computed for Jason) that will have to be tuned with the data in a similar way you are doing for atmosphere model for instance. - It seems that there has been some misunderstanding with this "saturation effect". This saturation should reduce significantly the effect and not enhance it (it seems that T/P USO evidenced an effect almost as large as Jason during the first months of the mission, we would be interested to know if you have some evidence of that). At the present time we think that the explanation of this effect increase since January is due to the fact that during the last months we have been leaving the solar activity maximum which has induced a lowering of the SAA which has created a more severe radiation environment (this can be seen on other equipment of the satellite such as the star tracker). Thanks a lot for the effort you have provided to identify, understand and compensate for this effect. Philippe