A new absorption band and the decomposition of the 350 nm absorption band of PbWO4

Single crystal PbWO4 has been grown by the improved Bridgman method. The ab sorption spectra in polarized light of the sample with the crystal c-axis p arallel to its surface have been measured. The absorption spectra of the as -grown crystal show a 350 nm weak band with dichroism in polarized light. S ubtracting the polarized light absorption spectrum with the electric vector E parallel to the c-axis by that one with E perpendicular to the c-axis, t he polarized light difference spectrum is obtained. The polarized light dif ference spectrum indicates that the 350 nm band has two peaks and can be de composed into two bands peaking at 330 and 360 nm, respectively. In order t o determine the detailed structure of the 350 nm band, annealing experiment s in air condition of the as grown crystal at different temperatures were p erformed. Difference spectra of the annealed crystal have been obtained by subtracting the absorption spectra of the crystal annealed at different ann ealing temperatures by that one of the as-grown crystal. The absorption spe ctra features also indicate that the 350 nm absorption band is composed of two bands peaking at 330 and 360 nm, respectively. The annealing properties of the 330 nm and the 350 nm band are obviously different. We come to the conclusion that the 350 nm band is a composed band and can be decomposed in to two bands peaking at 360 and 330 nm, respectively. The two bands are sug gested to belong to different color centers.