New measurements of the millimeter-wave transitions of HOC+ toward den
se molecular clouds have been carried out using the NRAO 12 m telescop
e. The J = 1 --> 0 transition of HOC+ at 89 GHz has been detected for
the first time toward DR21 (OH:), W51M, W3 (OH), NGC 7538, Orion (3N 1
E), NGC 2024, and G34.3. The J = 2 --> 1 and J = 3 --> 2 lines at 179
GHz and 268 GH2 have also been observed in W51 and Orion KL. In conjun
ction with past observations of HOC+ toward Orion KL and SgrB2 (OH) by
Ziurys & Apponi, these data confirm the presence of this ion in the i
nterstellar medium. The column densities of HOC+ were found to be N-to
t similar to (7 x 10(10))-(3 x 10(12)) cm(-1) which correspond to frac
tional abundances of f similar to(2 x 10(-13))-(3 x 10(-12)) relative
to H-2. Observations of the J = 1 --> 0 transition of (HCO+)-O-18 at 8
5 GHz have also been carried out, resulting in [HCO+]/[HOC+] ratios of
360-6000. These values are in good agreement with recent modeling by
Herbst & Woon and confirm that the reaction of HOC+ with H-2 indeed ha
s a substantial barrier at low (T < 50 K) temperatures. The widespread
abundance of HOC+ additionally suggests that there is not a strong pr
eference for synthesis of this ion in photon-dominated regions, althou
gh there may be a small enhancement toward such gas. Finally, confirma
tion of interstellar HOC+ has been accomplished through observations o
f weak emission (T-R less than or similar to 50 mK) at 179 GHz, provin
g that measurements near the atmospheric water line at 183 GHz are not
as difficult as previously thought.