We have discovered spatially extended emission in the 3(13)-2(20) line
of water vapor in Orion. This is the first time that extended water e
mission has been found in the interstellar medium. Many strong narrow
features with flux density approximately (1-15) x 10(3) Jy have been d
etected around Ori A-IRc2. These features appear superposed over a wea
ker (approximately 10(3) Jy) high velocity plateau with a half-power s
ize of almost-equal-to 45'', and a total extent of 80'' x 80''. Narrow
lines with intensities approximately 25-200 Jy, are detected at the v
elocity of the molecular cloud for all the positions observed along th
e molecular ridge. These lines are not arising from point sources and
the different emission regions are well resolved by our 15'' beam. Nar
row and blueshifted emission is also found along a filament containing
the S6 source 100'' south of IRc2. From statistical equilibrium and r
adiative transfer calculations for the physical conditions of the Orio
n molecular cloud, we conclude that the nature of the observed water v
apor emission is dominated by maser emission. The water abundance is e
stimated to be larger than 10(-5), implying that water vapor is a subs
tantial component of the gas phase in warm-molecular clouds and one of
its most important gas coolants.