The Microwave Spectrum of the OH X2Π Radical in Its First Vibrationally Excited State (v = 1)

The two lowest vibrational states of 35 Cl 35 ClO 2 , v 4 = 1 (A ) and v 6 = 1 (A ), were investigated between 223 and 500 GHz. More than 250 rotational transitions were recorded with J and K a up to 71 and 34, respectively. The spectra are heavily perturbed by strong c-type and weaker a-type Coriol

The infrared spectrum of the AsO radical in its \({ }^{2} \mathrm{Il}\) ground state has been measured using a diode laser spectrometer. Rovibrational transitions of the fundamental and a number of hot bands were measured in both \({ }^{2} \Pi_{3 / 2}\) and the \({ }^{2} I_{1 / 2}\) substates to an

The rotational spectrum of the PD 2 radical in the 2 B 1 ground electronic state was observed in the region 165-463 GHz using a source-modulated microwave spectrometer. The PD 2 radical was generated in a free-space absorption cell by a dc glow discharge of D 2 over red phosphorus grains which were

Bending vibration-rotation transitions between the (010) 2 ⌺ Ϫ and (000) 2 ⌸ r vibronic states of the CCN radical in its ground electronic state have been observed using far-infrared laser magnetic resonance (FIR LMR) spectroscopy. Thirteen FIR laser lines were used to record 769 resonances. The LMR

The 5 1 0 and 5 1 1 bands of the CaCCH A ˜2P-X ˜2S / transition, corresponding to the Ca-C-C bending mode, have been rotationally analyzed through cw dye laser excitation and dispersed fluorescence with a CCD array detector. The upper state is subject to Renner-Teller and spin-orbit couplings, and s