Non-thermal DT yield with (D)T ICRH heating in JET

Abstract

Projections of the (D)T fusion yield expected during fundamental ICRH heating of D in JET tritium plasmas are presented. The highest fusion multiplication factor, Q( identical to P_fus/P_RF), is achieved for a relatively high plasma density (n_e0>5*10¹⁹ m^-3) and minority concentration ratio n_D/n_T approximately=20-40% with dipole antenna (k/sub /// approximately=7 m^-1). The latter reduces mode conversion and maximizes the RF power coupled to the minority ions. The authors have used ray-tracing and global wave ICRH codes to calculate power deposition profiles; 80% is cyclotron damped by deuterium and 17% is coupled directly to electrons via TTMP and Landau damping. With launched RF power P_RF=12 MW deposited approximately=0.3 m off-axis, the authors predict fusion powers P_fus up to approximately=8 MW for a range of JET plasmas with achieved plasma pressure n_e0T_e0=6*10²⁰ keV m^-3 and Z_eff=2. Projecting to P_RF=25 MW, P_fus increases in 17 MW with Z_eff=2.