Abstract
Laser induced breakdown spectroscopy of ZrO2 plasma in the presence and absence of magnetic field has been investigated. The plasma was generated by employing Nd: YAG laser (1064nm, 10ns) at various fluences ranging from 6.4Jcm−2 to 25.6Jcm−2 under argon environment of pressure of 100Torr. Both emission intensity and electron temperature show increasing trend with increasing the fluence, whereas, electron number density of ZrO2 plasma decreases with increasing the laser fluence. It is revealed that values of emission intensity, electron temperature and electron number density of ZrO2 plasma are slightly higher in the presence of magnetic field as compared to field free case at all fluences. This increase in plasma parameters is attributed to magnetic confinement and Joule heating effect. With the variation of fluence the electron temperature of ZrO2 plasma varies slightly from 5345K to 5475K in the absence of magnetic field, whereas in case of magnetic field this value enhances from 5435K to 5600K. Similarly the electron number density of ZrO2 plasma varies from 1.80×1018cm−3 to 3.50×1018cm−3 in the absence of magnetic field, whereas in case of magnetic field, the variation in electron number density varies from 1.75×1018cm−3 to 4.25×1018cm−3. The existence of magnetic confinement effects is confirmed by the analytical evaluation of plasma parameter β, which is smaller than 1 under all experimental conditions. It is also revealed that both the laser fluence as well as magnetic field significantly influence the ZrO2 plasma parameters.
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