Journal of Physical Chemistry A, Vol.110, No.25, 7763-7771, 2006
Femtosecond laser ionization of organic amines with very low ionization potentials: Relatively small suppressed ionization features
We examined the femtosecond nonresonant ionization of organic amines with vertical ionization potentials as low as 5.95 eV. The quantitative evaluation of suppressed ionization relative to the single active electron approximation model was done by comparing the saturation intensity, I-sat, in experiments and theory. ADK theory was found to be useful in predicting the ionization yield in the I-sat scale within a factor of 2, even for molecules with very low ionization potentials. The degree of suppression was, however, smaller than that of benzene. The localization of electrons on the nitrogen atom was found to affect the ionization behavior under the strong laser field. The delocalized pi electrons in benzene could not follow the laser field adiabatically, while those in localized molecular orbitals could. In addition, the growth of a tunneling barrier due to the screening effect in amines may be relatively smaller than that in benzene.