Tidal effects on the LAGEOS-LARES satellites and the LARASE program

The effects of solid and ocean tides have been computed on the right ascension of the ascending node of the two LAGEOS and LARES satellites and on the argument of pericenter of LAGEOS II. Their effects--together with the possible mis-modeling related to systematic errors in the estimate of the tidal coefficients, especially in the case of ocean tides--are quite important to be well established for the key role of the LAGEOS satellites, as well as of the newly LARES, in space geodesy and geophysics as well as in fundamental physics measurements. In the case of the measurement of the Lense-Thirring effect, the mis-modeling of long-period tides may mimic a secular effect on the cited orbital elements, thus producing a degradation in the measurement of the relativistic precession. A suitable combination of the orbital elements of the three satellites can help in avoiding the effects of the long-period tides of degree l= 2 (as for the Lunar solid tides with periods of 18.6 and 9.3 years) and l= 4 , but other long-period tides, as the ocean K1 tide, which has the same periodicities of the right ascension of the ascending node ? of the satellites, may strongly influence the measurement, especially if it is performed over a relatively short time span. These results are particularly important in the case of LARES, since they are new and because of the role that the orbit of LARES, and especially of its ascending node right ascension, will have in a new measurement of the Lense-Thirring effect by the joint analysis of its orbit with that of the two LAGEOS.