Two-photon excitation spectrum of light-harvesting complex II and fluorescence upconversion after one- and two-photon excitation of the carotenoids

The two-photon excitation (TPE) spectrum of light-harvesting complex II (LH C II) has been measured in the spectral region of 1000-1600 nm, correspondi ng to one-photon wavelengths of 500-800 nm. We observed a band with an orig in at similar to 2 x 660 nm (ca. 15 100 +/- 300 cm(-1)) and a maximum at si milar to 2 x 600 nm. The line shape and origin of this band strongly sugges t that the observed signal is due to the two-photon-allowed S-1 state of th e energy-transferring carotenoids (Car) in LHC II. We also report the time dependence of the upconverted chlorophyll (Chl) fluorescence after TPE at t he maximum of the observed band. Surprisingly, a fast rise of 250 +/- 50 fs followed by a multiexponential decay on the picosecond time scale was obse rved. This result provides strong indication that there is a fast energy tr ansfer even from the dipole-forbidden Car S1 state to the Chl's. The sub pi cosecond energy transfer from the Car S1 state is likely a consequence of t he large number of energy-accepting Chls in van der Waals contact with the central Car's in LHC II. We also present upconversion data of the Car S-2, Chi a, and Chi b fluorescence observed after oner-photon excitation into th e dipole-allowed Car S2 state. The lifetime of the Car S2 State is similar to 120 +/- 30 fs. With the observed time constants we are able to calculate quantum yields for the different possible pathways contributing to the ove rall Car to Chi energy transfer in LHC II.