The influence of both photochromic doping and photochromic transitions on t
he optical activity (OA) of undoped and doped Cr, Mn and Cu Bi12SiO20 (BSO)
crystals is studied. The results show that Cr strongly increases the optic
al rotatory power rho of BSO up to 70-80% below 520 nm and decreases it (wi
th about 40-50%) at the long-wavelength region. Mn decreases rho of BSO: wi
th about 3-4% in the range 480-700 nm, whereas Cu increases it with about 7
-8% in the same range. The relation between OA and absorption is discussed.
The results lead us to the assumption that Cr3+ occupies Bi3+-tetrahedral
(Td) positions, while Mn4+/5+ occupies Si-tetrahedral positions. The opposi
te influence of Cu2+ on rho of BSO suggests that the Cu2+-ion preferentiall
y replaces Si in BSO. In the co-doping cases, obviously, Al3+ predominately
displaces Cr3+ from its Bi3+-Td M-sites. In the case of BSO:P, the results
undoubtedly indicate that Cr3+ displaces P5+. (C) 1999 Elsevier Science B.
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