The solar 2.297 GHz radiation has been observed and investigated by ve
ry long baseline interferometry (VLBI). The radio observatories of Med
icina, Note, Onsala, and Weilheim were involved yielding baselines bet
ween 360 km and 3800 km and a nominal resolution of 0.09 '' to 0.008 '
' or 70 to 6 km on the Sun. This solar VLBI network operated successfu
lly with at least one useful baseline for 167 hours during five campai
gns at the maximum of the most recent activity cycle in 1989 and 1990.
The Phoenix spectrometer at Zurich was used to detect and classify th
e radio bursts. A total of 59 solar radio bursts were observed at the
VLBI frequency, of which 26 events were analyzed, including narrowband
millisecond spikes, type III bursts, patches, pulsations, and diffuse
broadband (gyrosynchrotron) emission. Neither during bursts nor in qu
iet times significant fringes were detected. All sources were well res
olved including the narrowband spikes. We interpret the result in term
s of relatively large radio sources and/or by scattering to apparent s
ource sizes larger than the lowest resolution and by the lack of 'spec
kles'. The results are consistent with scattering of the radio emissio
n in the corona. The upper and lower limits of the source size of spik
es are discussed. For the apparent source size, l(a), we find 65 km <
l(a) < 16 000 km, and for the original source size before scattering l
less than or similar to 200 km.