Two-photon ionization spectroscopy of two (2)1Σ+u double-minimum state of Na2

Na2 molecules in the weakly bound lowest triplet state 1 'ZZz are formed in a cold supersonic argon beam seeded with sodium. They are excited by a tunable cw Ti: sapphire laser into levels of the 1 'Xl state which are ionized by an argon ion laser. From a vibrational analysis of the resonant two-pho

The high-resolution two-photon absorption spectrum of the % 'A, (000) +3po 'Z 7 (000) system in NO1 shows rotational fine structure characteristic of a bent-to-linear transition. This structure is well tit by a simple Hamiltonian incorporating an upper state rotational constant B,.=O.419 +O.OOl cm-'

The double minimum 2 1 ⌺ u ϩ state of Na 2 was investigated by polarization labeling spectroscopy technique. A total of 1156 transitions to rovibrational levels of the inner well and above the barrier were identified. Using the IPA method, an accurate potential curve of the state was constructed bas

We report time-resolved experiments studying the dynamics of the Nas B-X system. Femtosecond pump-probe techniques combined with ion time-of-flight (TOF) and zero kinetic energy (ZEKE) photoelectron spectroscopy allow us to observe the three-dimensional wavepacket motion in the excited NaJ B state a

Two-photon resonant multiphoton ionisation spectroscopy between 236 and 248 nm has been used to study the lowest D 'E-Rydberg state of the OH/OD radical. The origin bands for OH/OD have been observed and show strong unperturbed rotational structure, offering a sensitive detection technique for OH/OD