Development and application of the pulse train hyper-Rayleigh scattering technique. / Desenvolvimento e aplicação da técnica de hiper Rayleigh com trem de pulsos

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

This thesis reports an extension of the Hyper-Rayleigh scattering technique (HRS) and its application to study the mechanisms that contribute to the molecular first hyperpolarizabilities (). We use a Nd:YAG laser, Q-switched and mode-locked, as pumping beam to excite the samples. The laser delivers 100 ps pulses modulated by a Q-switch envelope, and the output is a pulse sequence which intensities follow the shape of the envelope. This pulse train is used to excite the samples in a Hyper-Rayleigh scattering experiment and the signal for each mode-lock pulse is detected independently. This modality of pumping allows the removal of the mechanical intensity control, therefore reducing measurement time and improved experimental stability. The method with pulse train also provides means to identify luminescent contributions and avoid overestimated values for the first hyperpolarizability. We performed test measurements with para-nitroaniline in several solvents and verified very good reproducibility of literature values. We also compared the measured and calculated values, obtained with the Hartree-Fock method and corrected for resonance enhancement with a two level model. The comparison between theoretical and experimental values results in an average difference of 15%. Similar studies for the dianiline molecule failed to reproduce experimental values and we attributed the failure to the inadequacy of the of the two-level model to correct resonance enhancement. We also studied the first hyperpolarizability of the TDMImP and TPPS4 porphyrins, in the free-base form and in complex with Zn2+, Fe3+ and Mn3+. For TPPS4 we extended the study to observe the protonação effects in the free-base and the formation of oxo dimmers in FeTPPS4 complexes. The comparison between results from different compounds is hindered in most cases by different contributions from resonance enhancement. However, it was possible to verify that the presence of micelles has the effect of reducing the value of on H2TPPS4 pH 7. The HRS measurements in acid environment (pH 4) corroborates with the literature, indicating that desprotonation occurs in the presence of CTAB micelles. A theoretical and experimental study of three aminofenol isomers allowed to verify the effects of the relative positions of radical groups and the conjugation length on the first hyperpolarizability. The results show that in this case the change in the donor/acceptor character for different positions of the radical groups is more important than the increase in one unit in the conjugation length. We also studied compounds with the salen ligant, observing the effects of different lateral groups (ethane and DR1) and different complexes (H2, Cu2+, Ni2+ and VO2+) on the value of . It was possible to verify that, differently than the linear absorption the two-photon cross section, the compounds with DR1 shows an increase in the first hyperpolarizability that is much larger than the sum of the individual contributions of DR1 groups. The metal complexes have larger first hyperpolarizabilities than the ligant and the enhancement produced by different complexes follows the same pattern for both radical groups. Even after the strong increase in produced by the DR1 group, the much weaker effect of the complexes is preserved and measurable.

ASSUNTO(S)

solvatação trem de pulsos. first hyperpolarizability espalhamento hiper-rayleigh hyper-rayleigh scattering pulse train primeira hiperpolarizabilidade solvation

ACESSO AO ARTIGO

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