Solar wind plasma flux correlations between data from three spacecraft
(IMP 8, WIND, and INTERBALL-1) were analyzed for approximately 4 mont
hs during late 1995 and mid 1996 (near solar minimum) in order to inve
stigate the local homogeneity of the solar wind. The data were split i
nto g-hour segments, resulting in a total of 397 segments where data f
rom at least one pair of spacecraft could be correlated. The results s
how that the average flux correlation was 0.7 over distances ranging f
rom 0 to 220 R-E in the radial direction and up to 80 R-E perpendicula
r to the Earth-Sun line. 43% of the segments studied had correlation c
oefficients of at; least 0.8, while only 19% of the segments had corre
lation coefficients less than 0.5. The additional lags, after performi
ng radial advection shifts at the plasma bulk speed, cluster near zero
(71% of the best correlations occur with lags under PO min), implying
that the advection shift is a good approximation of the propagation t
ime for the structures being correlated. There appeared to be no depen
dence of the correlation on spacecraft separation in either X-GSE or Y
-GSE. The best organizers of the flux correlation appear to be the val
ue of the flux and the standard deviations of the flux and the density
.