The overtone spectra of H2O, D2O and mixtures of H2O in D2O ice

Fundamental frcquencres for Hz0 Isolated m D,O Ice I, have been determmed by a combmation of Founer transform infrared difference spectroscopy and Interference enhanced Raman spectroscopy. The results are mterpreted m terms of a ~2 frequency (1732 cm-') such that rermt resonance of vt wrth 2~2 cause

Between 1 MHz and 55 GHz the complex dielectric spectrum has been measured at 25°C for D,O and for HsO/DsO mixtures with mole fraction x=0.25, 0.5 and 0.75 of DzO. A Debye-type relaxation spectral function has been fitted to the frequencydependent data to yield the static permittivity, the extrapola

SRS of the valence band ofliquid Hz0 and I&O are obkked using a ti&'ttosecond pdlsc From a @mitched ruby laser. ke SRS contours obtained .are in ovextLI rgreement with &ose of earlier workers us@ picosecond pulses %ad hefp cL~ify the results of one of the p&lished works. The bmad SRS bnnds arc less

The results are especially encouraging in the light of Konowalov's calculation [8]. He found that Hulth&n functions (integral transforms of 1s functions), which are somewhat better than k,(q) in the Z-electron+atomic case, reduce to scaled 1s functions in H2, except for larger R values. Since k, (v)