The intensity and polarization aspects of photochemical hole burning

The quantum yields of photochemical hole burning (PHB) of three ionic porphins and their deuterated analogues doped in poly (vinylalcohol) and poly (sodium 4-styrenesulfonate) were estimated. The deuterated compounds, whose two hydrogen atoms at the nitrogen sites in the porphin ring were exchanged

High-resolution fluorescence and excitation spectra of hypericin in ethanol and in polyvinylbutiral are reported. Persistent spectral hole-burning is highly efficient in ethanol with a quantum yield q~hb ~ 1.1 × 10-2. Evidence is shown for a photoproduct located at about 200 cm-~ below the burnt hol

## Facile non-photochsmicnl hole burning is reported Tar chlorophyll II and b in polyslyrcnr lilms. The holti burned at T=1.9 K ax stable. that is. do nor sxhibit any spontaneous hole hlling following wrminalion of the bum. However. laser-induced filling of a primary hole at wI1 resulting from sec

We studied the photoinduced electron transfer process at low temperatures by using persistent spectral hole burning spectroscopy. The efficiency of non-photochemical hole burning for zinc tetraphenylporphine (ZnTPP) and zinc phthalocyanine decreased in the presence of electron acceptors. This is att