Behavior of Antenna Spectral Form Factor for Wave Mode for Plasma Heating Borkar Aparna1,*, Gupta M. S.2,3,** 1H.O.D., Department of Mathe ematics, Kruti Institute of Technology & Engineering, Knowledge Village, Raipur (C.G.) India 492001 2Department of Mathematics, Govt. N.P.G. College of Science, G.E. Road, Raipur (C.G.) India 492010 3I/c H.O.D. Department of IT, Govt. N.P.G. College of Science, G.E. Road, Raipur (C.G.) India 492010 *Corresponding Author r: appi.borkar@gmail.com
**ms_gupta1965@yahoo.co.in
Online published on 5 February, 2014. Abstract Since we know plasma is the fourth state oof matter. It is collection of ionized charged particles. To crea ate and confine the plasma particles, we need a toroidal device, called tokamak. To create plasma in the center of the device we need toroidal as well as poloidal magnetic fields. Through such fields poloidal as well as toroidal currents will be created in the device. Plasma be heated with the help of following methods: Ohmic Heating Radio Frequency Heating Neutral Beam Injection Heating Antenna spectral form factor depends on th he antenna geometry and the antenna current distribution and is independent of the plasma coupling conditions. The form factor determines the relative contributions of various ranges of kz.
Top Keywords Tokamak, ICRH, Wave mode, Controlled fusion, Antenna length, Spectral Form Factor, Refractive index. Top |