A laser fluorescence study of the IBr B′0+-X1Σ+ system

The electronic absorption spectra of the \(A^{3} \Pi_{1} \leftarrow X^{1} \Sigma^{+}\)system of iodine bromides \({ }^{79}{ }^{79} \mathrm{Br}\) and \({ }^{81} \mathrm{Br}\) species were investigated in the region from 11780 to \(12500 \mathrm{~cm}^{-1}\) using a \(\mathrm{GaAs}\) semiconductor lase

The vibrotational absorption spectra of the A ← X electronic transition of I 79/81 Br were measured in the 11 330-to 13 220-cm -1 region using a Ti:sapphire ring laser. The P-, Q-, and R-branch lines of the rotational states from J = 10 to 100 belonging to the v ← v = (3∼20) ← (1∼6) bands were assig

The 799.3 nm Kr+-ion laser radiation and several lines of a monomode titanium:sapphire laser (767 to 846 nm) have been used to excite the near-infrared B 'I.+ +X \*Z+ fluorescence of the BaCl molecule. Spectra have been recorded using a high-resolution Fourier transform spectrometer. Molecular const

The spectroscopy of the Br 2 B 3 P(0 / u ) -X 1 S / g system has been revisited using both high-resolution Fourier transform spectroscopy and laser-induced fluorescence techniques. Improved rotational constants are reported based on an analysis of 97 vibrational bands observed in absorption at 0.02