Infrared spectra and structure of water clusters trapped in argon and krypton matrices

Extending our recent studies of Si2, Gez, and Snz, absorption spectra of the GeSi and SnSi molecules were observed at frequencies up to 3000 cm-' in argon matrices at 4 K. In each case the vibrational frequency in the ground state was determined, and the transition to the low-lying electronic state,

The relation between VUV radiation spectra of argon and krypton supersonic jets excited by an electron beam and the mean size of clusters in a jet is studied. For each atomic and molecular emission of argon in the 104-120 nm range and of krypton from 116 to 130 nm, the maximum intensity is found to

The high-re~lution spectra ofH2'60, H2"O. HDr60. HD'aO. D2r60, and D2 180 isolated in argon and krypton matrices are reporkd in the IO-60 cm-r region. The high resolution is obtained by observin\_e very ddu te mixtures of watcr in the rare gases. NO discrete absorbancrs attributable to pure argon or

Three structural isomers of fluorobenzaldehyde (p-, m-and o-forms) have been investigated in detail with matrix-isolation infrared spectroscopy, in the 700-3000 cm K1 region, combined with the UV photoexcitation and the density functional calculations. Two rotamers (syn and anti) were identified for