Line position and line intensity analyses of new microwave and infrared dat
a pertaining to water and involving the ground and (010) Vibrational states
are carried out using the same theoretical approach as in Coudert, L. H.,
1997, J. molec. Spectrosc., 181, 246. The line position analysis involves t
he high J and K-a lines measured by Polyansky, O. L., Zobov, N. F., Viti, S
., Tennyson, J., Bernath, P. F. and Wallace, L., 1997, J. molec. Spectrosc.
, 186, 422 and the nu(2) band transitions published by Toth, R. A., 1998, J
. molec. Spectrosc., 190, 379. In contrast to the previous investigation, t
he maximum K-a value in the data set is 24 for the ground vibrational state
and 21 for the (010) state. The data set considered in the line intensity
analysis includes mainly the line intensities reported by Toth and is much
more complete than that fitted in the present author's previous investigati
on as it contains many lines within the ground and (010) vibrational states
. The theoretical approach accounts correctly for the observed data for bot
h analyses. However, in the line position analysis, a few transitions had t
o be excluded from the fitting because they involved high lying perturbed r
otational levels belonging to the (010) vibrational state.