@article{BINWAL_JOSHI_KARKARI_KAW_NAIR_LEGGATE_SOMERS_TURNER_2018, title={Spatial Temperature Profile in a Magnetised Capacitively Coupled Discharge}, volume={16}, url={https://wjst.wu.ac.th/index.php/wjst/article/view/4784}, DOI={10.48048/wjst.2019.4784}, abstractNote={A floating emissive probe has been used to obtain the spatial electron temperature (<em>T<sub>e</sub></em>) profile in a 13.56 MHz parallel plate capacitive coupled plasma. The effect of an external transverse magnetic field and pressure on the electron temperature profile has been discussed. In the un-magnetised case, the bulk region of the plasma has a uniform <em>T<sub>e</sub></em>. Upon application of the magnetic field, the <em>T<sub>e</sub></em> profile becomes non-uniform and skewed.  With increase in pressure, there is an overall reduction in electron temperature. The regions adjacent to the electrodes witnessed a higher temperature than the bulk for both cases. The emissive probe results have also been compared with particle-in-cell simulation results for the un-magnetised case.}, number={6}, journal={Walailak Journal of Science and Technology (WJST)}, author={BINWAL, Shikha and JOSHI, Jay K and KARKARI, Shantanu Kumar and KAW, Predhiman Krishan and NAIR, Lekha and LEGGATE, Huw and SOMERS, Aoife and TURNER, Miles M}, year={2018}, month={Jul.}, pages={385–390} }