Development of Calculation
and Analysis Methods for
the Dynamic First Hyperpolarizability Based on the Ab Initio Molecular
Orbital – Quantum Master Equation Method
posted on 2012-05-03, 00:00authored byRyohei Kishi, Hiroaki Fujii, Shingo Kishimoto, Yusuke Murata, Soichi Ito, Katsuki Okuno, Yasuteru Shigeta, Masayoshi Nakano
We develop novel calculation and analysis methods for
the dynamic
first hyperpolarizabilities β [the second-order nonlinear optical
(NLO) properties at the molecular level] in the second-harmonic generation
based on the quantum master equation method combined with the ab initio
molecular orbital (MO) configuration interaction method. As examples,
we have evaluated off-resonant dynamic β values of donor (NH2)- and/or acceptor (NO2)-substituted benzenes using
these methods, which are shown to reproduce those by the conventional
summation-over-states method well. The spatial contributions of electrons
to the dynamic β of these systems are also analyzed using the
dynamic β density and its partition into the MO contributions.
The present results demonstrate the advantage of these methods in
unraveling the mechanism of dynamic NLO properties and in building
the structure–dynamic NLO property relationships of real molecules.