Rotational coherence spectroscopy of para-cyclohexylaniline by stimulated Raman-induced fluorescence depletion and stimulated emission pumping

A high-resolution rotational coherence spectroscopy (RCS) investigation of para-cyclohexylaniline (pCHA) was performed using the methods of time-resol ved stimulated Raman-induced fluorescence depletion (TRSRFD) and time-resol ved stimulated emission pumping (TRSEP). TRSRFD and TRSEP are sensitive to ground state or excited state rotational constants, respectively and allow the deconvolution of the time-resolved fluorescence depletion (TRFD) spectr um to which both ground state and excited state rotational constants contri bute. Moreover, from a detailed analysis of the presented experimental data it is deduced, that photoionization and internal vibrational relaxation (I VR)-not included in the picture of TRSEP, TRSRFD and TRFD-also contribute t o the RCS spectra. The obtained rotational constants are in very good agree ment with our previous high-resolution TRFD investigation of pCHA, allowing additionally for the unambiguous assignment of the excited state J-type tr ansients. From a linear regression analysis of 25 transient positions (B+C) (')=719.74(53) MHz was calculated, confirming set (II) of our former invest igation [C. Riehn, A. Weichert, U. Lommatzsch, M. Zimmermann, and B. Brutsc hy, J. Chem. Phys. 112, 3650 (2000)]. (C) 2000 American Institute of Physic s. [S0021-9606(00)70242-X].