Second-order Stark effect observation in the ground state of silicon tetrafluoride, SiF4

The dipole moment parameters \(\mu_{0}\) and \(\mu_{33}\) of \(\mathrm{SiF}_{4}\) have been determined previously from linear Stark effect observations on \(E\)-type transitions. These dipole moment parameters have been used to predict the nonlinear Stark effect which arises from interactions betwee

The second order Stark et-feet hns beer. demonstrated on the phosphorescence microwave double resonance (PMDR) signals ofp-benzoquinone in 1,4dibromobenzene host 2t 1.6 K. It is shown that possible estimates of the zero-field parameters of the higher triplet state mixed by the field with the lowest

## ~rnp~on of the tibmnic structure of the ' El; second-order Jabn-Teller effect is operative in the \* 4A~g transition in C$MnF~ and K~NaGaF&r3t indicates that a % state of these compounds.

The electric field induced shift of the clcctronic origin of the lowest B,, singlet state of tetracene and pentacene in p-terphenyl at 1.8"K has been measured. From this shift we calculate the difference in polarizability of this state and the ground state along the long molecular nsis to be 4.5 ? 0