High harmonic fast wave heating efficiency enhancement and current drive at longer wavelength on the National Spherical Torus Experiment

摘要

High harmonic fast wave heating and current drive (CD) are being developed on the National Spherical Torus Experiment [M. Ono , Nucl. Fusion 41, 1435 (2001)] for supporting startup and sustainment of the spherical torus plasma. Considerable enhancement of the core heating efficiency (eta) from 44% to 65% has been obtained for CD phasing of the antenna (strap-to-strap phi=-90 degrees, k(phi)=-8 m(-1)) by increasing the magnetic field from 4.5 to 5.5 kG. This increase in efficiency is strongly correlated to moving the location of the onset density for perpendicular fast wave propagation (n(onset)proportional to Bxk(parallel to)(2)/omega) away from the antenna face and wall, and hence reducing the propagating surface wave fields. Radio frequency (RF) waves propagating close to the wall at lower B and k(parallel to) can enhance power losses from both the parametric decay instability (PDI) and wave dissipation in sheaths and structures around the machine. The improved efficiency found here is attributed to a reduction in the latter, as PDI losses are little changed at the higher magnetic field. Under these conditions of higher coupling efficiency, initial measurements of localized CD effects have been made and compared with advanced RF code simulations. (C) 2008 American Institute of Physics.