Laser-induced fluorescence spectrum of matrix-isolated C6H8+

## CIN$ (N=C-C=C-C=N+ ) is produced in a self-igniting dc discharge from the neutral precursor seeded in neon and matrixisolated at 5.5 K. From Fourier-transform absorption, laser excitation and emission spectra of the cation's A \*IIs \* X \*lIU transition the three symmetric C, vibrational modes

The cyanodiacetylene (HCsN +) and cyanotriacetylene (HCTN +) cations were produced in a pulsed supersonic discharge through a dilute cyanoacetylene (HC3N) neon mixture, and isolated in solid neon at 5-7 K. The A 2 H-X 2II transitions of these cations were investigated by means of laser excitation an

C2HSS radicals were generated by 248 nm photodissociation of C2H5SH and CZHSSSCzHS and laser-induced fluorescence on the A-2 transition was studied. Prominent progressions are found in the C-S stretching mode which has a frequency of 408 zk 8 cm-' in the excited state and 681 f 15 cm-' in the ground

In the spectral range 34500-40000 cm-1, two molecular species were detected by means of laser-induced fluorescence in the 193 nm photolysis of acetylene: one is C2(a 3Hu), the other is most likely C2H(X). The identification of C2H is based upon the rotational constants (B"= 1.4397-1.4534 cm-t), the