Excited states and photochemistry of saturated molecules. The vibrational structure in the electronic spectrum of ethane

A rule originaliy due to Wakh for predicting the shapes of electronicany excited moleeuks can afsc be derived from structure theory based on the second-order him-Teller effect. The fast excited state of a moIecuIc containing n electrons should belong co the same point grcup as the ground state of a

Theoretical analysis of the time-dependent triplet-triplet absorption spectrum of anrhracene is cvried out in terms of the Huanp-Rhys spectral function which describes the absorption of molecules thermally equilibrated, due to fast intramolecular processes, al some effective tempera!urc r\*(r) depen

Ihe surface of the lowest excited smgkt state in meth;lne IS analyzed usmg a basis yet composed of 4-3 IC; augmented by a set of one s and three p Rydbergs. The State (IT2 in Td syrnnrctry. 1 Li, In C 2v! is fmnd to bc dissociatlvc to I B I Cllz and ground state &. Vcrtirally a llydbcrg state, 1B1 r

The rotational spectrum of the ground state, the excited \(A\) states \(\nu_{3}, 2 \nu_{3}\) and probably \(\nu_{2}\), and the lowest \(E\) state \(v_{6}\) of \(\mathrm{CH}^{35} \mathrm{Cl}_{3}\) have been measured. The ground state microwave spectrum was analyzed to obtain nuclear quadrupole coupli