Strain-induced birefringence, Delta n, was measured at wavelengths 400 nm <
lambda< 800 nm for uniaxially elongated films of polystyrene (atactic and s
yndiotactic), bisphenol A polycarbonate, poly(ethylene terephthalate), and
poly(ethylene naphthalate). The magnitude of Delta n was always higher at l
ower lambda: the reduced birefringence, k(lambda)=Delta n(lambda)/Delta n(6
33 nm), was a decreasing function of lambda. The strain-induced crystalliza
tion in poly(ethylene terephthalate) (PET) and syndiotactic polystyrene (sP
S) did not significantly affect k(lambda.). For polycarbonate (PC) and PET
I-dependence was much stronger when the strain was applied in the melt stat
e (corresponding to the stress-optical coefficient, SOC) than in the glassy
state (corresponding to the photoelastic coefficient, PEG); the difference
was very small for atactic polystyrene (aPS). These results may be explain
ed with a model theory in which the SOC is associated solely with the chain
orientation while the PEC is affected also by the rotation of repealing un
its around the chain axis induced by deformation of the material glassy sta
te.