Effect of dopants on the nonlinear optical properties of fluorotellurite glasses for optical limiting application

Investigation on non-linear optical property of zinc and barium based fluorotellurite glasses based on open aperture Z-scan technique and its application as an optical limiter is reported. Changes in various parameters like polarizability, refractive index and molar refractivity have been attributed to the presence of barium/ zinc atoms and their impact on modifying the structure. Formation of non-bridging sites owing to fluorine doping have been explored based on Raman measurements. Open aperture data shows reverse saturable absorption behaviour and is attributed to the two-photon absorption process. Non-linear absorption values are found to increase with doping of both barium fluoride and zinc fluoride which has been attributed to the formation of non-bridging fluorine sites alongwith the polarizability of barium atoms. Effect of non-bridging fluorine sites on modifying the optical properties have been justified based on the energy bandgap values. Samples show comparably good optical limiting thresholds with a value of 2.59 x 10(12) W m(-2) for the sample with highest fluorine concentration, which enables them to be used as limiting devices.

Automated summary

The study investigated the non-linear optical properties of zinc and barium based fluorotellurite glasses using open aperture Z-scan technique, and their application as an optical limiter. The research found that the formation of non-bridging fluorine sites due to fluorine doping led to increased non-linear absorption values with doping of barium fluoride and zinc fluoride. Samples showed good optical limiting thresholds, making them suitable for use as limiting devices.