Observation of the 3ν2 ← 0 overtone band of H3+

Fourier transform, vibration-rotational spectra of NpF, measured at moderate to high resolution (0.1-0.008 cm-') reveal well-defined PQR structures for the two combination bands, v, + yg and Y\* + Y+ The resolved ground-state Q branch and rotational manifolds for each band provide accurate vibration

Double-resonance spectra were recorded for several rotatiomd sublevels of the (21) The observed vibrational energy is 5968.1 cm-', \_ 3, Al) vibrational level of methane. m good agreement with local-mode theory\_ The effective rotational constant for this level was found to be 5.31 cm-' . This unex

The \(\nu_{2}+\nu_{3}-\nu_{2}\) hot band of \(\mathrm{NH}_{3}^{+}\left(\dot{X}^{2} A_{2}^{\prime \prime}\right)\) has been observed on the absorption spectrum recorded by using a difference frequency laser spectrometer combined with the velocity modulation technique in the region between 3500 and \(

Although the vibration-rotation spectrum of H 3 O / has been studied extensively, there has been no experimental information on the value of the C rotational constant because of the absence of any observed DÉk 0 lÉ x 0 forbidden transitions. However, as pointed out by Verhoeve et al. in their far-in

The rotationally resolved, Stark split spectrum of the u~ + 3p 3 band of acetylene has been investigated with a high resolution molecular beam laser spectrometer. The results indicate a field induced coupling of the 11030°0 °) upper state with the 1004000 °) state. The number of observed transitions