Double-photon excitation of excimer fluorescence of pyrene solutions

Thennochromic shifts of pyrene excimer were obtained in cyclohexane (25-60'(Z) and ethanol (25-70%). The observed shifts are due to changes in polarinability between the states involved in the electronic transition. The parameters obtained from thermoehromic shifts agree with the ones calculated fro

## Recri\ed 10 Jnnuarv I983 The t\\o-photon excitation spectrum of pgrene md the polarization ratio R have been merrsured up to 52100 A. Eridencc of 3 strong vibronic coupling benreen the first 'Bz,, state and 'Aa states induced by bZu vibwtional modes is presented. By means of n nnd comparison wi

The absorption and polarization spectra from the first excited singlet state of pyrene and the absorption spectrum of the pyrene excimer are presented. These results were obtained by laser flash spectroscopy using a frequency doul bled ruby laser pulse of 6 nanoseconds halfwidth. A qualitative prel

A well resolved spectrum h;ls been obtained for the pyrenc escimer in dcoxygenatcd cyclohexanc using modulation escitation spcctrophotometry.

Two-photon excited fluorescence excitation spectra using circularly and linearly polarized light are presented for the aromatic amino acids tryptophan, tyrosine (amide form) and phenylalanine in neutral aqueous solution at room temperature. The wavelength range was 440-620 nm, corresponding to 220-3