Physics – Chemical Physics
Scientific paper
2004-05-10
Physics
Chemical Physics
35 pages, 9 figures with a supplement (9 pages + 7 figures); w references & many corrections; to be submitted to J. Phys. Chem
Scientific paper
Temporal evolution of transient absorption spectra for pre-solvated electron (e-) generated by biphotonic (200 nm) ionization of liquid H2O and D2O has been studied on femto- and pico- second time scales. These spectra were obtained in the intervals of 50 nm between 500 and 1700 nm. Two distinctive regimes of the spectral evolution were observed. In both of these regimes, the spectral profile changes considerably with delay time. For t<1ps, two new features (the 1150 nm band and 1400 nm shoulder) were observed in the spectral region where O-H overtones appear in the spectra of light water. These two features were not observed for the e- in D2O. Vibronic coupling to the modes of water molecules lining the solvation cavity is a possible origin of these features. On the sub-picosecond time scale, the absorption band of e- progressively shifts to the blue. At later delay times (t> 1ps), the position of the band maximum is "locked", but the spectral profile continues to change by narrowing on the red side and broadening on the blue side; the oscillator strength is constant within 10%. The time constant of this narrowing is ca. 0.56 ps for H2O and 0.64 ps for D2O, respectively. Vibrational relaxation and time-dependent decrease in the size and anisotropy of the solvation cavity are suggested as possible causes for the observed spectral transformations in both of these regimes. The geminate recombination kinetics for hydrated electrons generated by absorption of two 200 nm quanta (12.4 eV total energy) in light and heavy water are almost identical, suggesting that the average separation between the e- and its geminate partners in D2O is 13% narrower than in H2O. We suggest that autoionization of water competes with direct ionization even at this high photoexcitation energy.
Crowell Robert A.
Lian Rui
Shkrob Ilya A.
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