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Publication Figures

Publication Date:
0000-00-00

First Author:
Ian Jenkins

Title:
Scoping Studies for NBI Launch Geometries on DEMO

Paper Identifier:
CP/15/324

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Figure Reference Title Description Number of Figure Data Items Identifier Download Figure Details
Fig. 2a Fig. 2a Contours of NBCD efficiency, ?, with EB=1.5MeV a) the flat density scenario Contours of NBCD efficiency, ?, with EB=1.5MeV for a range of tangency radii and elevations for a) the flat density scenario. 1 CF/15/325 Download
Fig. 1 Fig. 1 Density (upper) and Temperature (lower, Ti=Te) profiles Fig. 1. Density (upper) and Temperature (lower, Ti=Te) profiles plotted against rho for the DEMO scenarios considered. The solid lines relate to the ‘flat’ density profile case and the dashed to the ‘peaked’ density profile case. 0 CF/15/326 Download
Fig. 2b Fig. 2b Contours of NBCD efficiency, ?, with EB=1.5MeV b) the peaked density scenario. Contours of NBCD efficiency, ?, with EB=1.5MeV for a range of tangency radii and elevations for , b) the peaked density scenario. 1 CF/15/327 Download
Fig.3a. Contours of % shinethrough (solid lines) with EB=1.5MeV for a) flat density Contours of % shinethrough (solid lines) with EB=1.5MeV for a) flat density 1 CF/15/328 Download
Fig 3b Fig.3b. Contours of % shinethrough (solid lines) with EB=1.5MeV for b) peaked density Contours of % shinethrough (solid lines) with EB=1.5MeV for peaked density 0 CF/15/329 Download
Fig. 4a Fig.4a. Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.5MeV for a) flat density Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.5MeV for a) flat density 0 CF/15/330 Download
Fig.4b. Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.5MeV for peaked density. Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.5MeV for b) peaked density 0 CF/15/331 Download
Fig. 5a Fig.5a Contours of NBCD efficiency, ?, with EB=1.0MeV for a) the flat density scenario, Fig.5a Contours of NBCD efficiency, ?, with EB=1.0MeV for a) the flat density scenario, 1 CF/15/332 Download
Fig 5b Fig.5b Contours of NBCD efficiency, ?, with EB=1.0MeV for the peaked density scenario. Contours of NBCD efficiency, ?, with EB=1.0MeV for the peaked density scenario 1 CF/15/333 Download
Fig 6a Fig.6a. Contours of % shinethrough (solid lines) with EB=1.0MeV for a) flat density Contours of % shinethrough (solid lines) with EB=1.0MeV for a) flat density 0 CF/15/334 Download
Fig.6b. Contours of % shinethrough (solid lines) with EB=1.0MeV for peaked density Contours of % shinethrough (solid lines) with EB=1.0MeV for peaked density. 0 CF/15/335 Download
Fig. 7a Fig.7a. Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.0MeV for flat density Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.0MeV for a) flat density 0 CF/15/336 Download
Fig. 7b Fig.7b. Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.0MeV for peaked density scenarios. Contours showing the r/a location of the maxima of the NBCD profiles with EB=1.0MeV for peaked density scenarios 0 CF/15/337 Download
Fig. 8 Fig.8. A schematic representation of a trial solution with each bit string including a binary representation of the crossover and mutation rates associated with that particular trial solution and bit-string. A schematic representation of a trial solution with each bit string including a binary representation of the crossover and mutation rates associated with that particular trial solution and bit-string. 0 CF/15/338 Download
Fig. 9 Fig. 9. Typical ‘hybrid’ q-profile (upper) and corresponding current profiles (lower). Typical ‘hybrid’ q-profile (upper) and corresponding current profiles (lower). The dotted line is the difference between the total (solid line) and bootstrap current (dash-dotted), here calculated for the flat density scenario, and represents the current required to be provided by ohmic induction, NBCD, or a mixture of the two. 1 CF/15/339 Download
Fig. 10a. Fits after 1000 generations of genetic algorithm for the EB=1.5MeV NBCD source functions to target j-profile and the distribution of power required for flat density Fits (dashed line, inset) after 1000 generations of genetic algorithm for the EB=1.5MeV NBCD source functions to target j-profile (solid line, inset) and the distribution of power required for a) flat density 1 CF/15/340 Download
Fig. 10b Fig. 10b. Fits after 1000 generations of genetic algorithm for the EB=1.5MeV NBCD source functions to target j-profile and the distribution of power required for peaked density scenarios. Fig. 10b. Fits (dashed line, inset) after 1000 generations of genetic algorithm for the EB=1.5MeV NBCD source functions to target j-profile (solid line, inset) and the distribution of power required for peaked density scenarios. 1 CF/15/341 Download
Fig. 11a Fig. 11a. Fits after 1000 generations of genetic algorithm for the EB=1.0MeV NBCD source functions to target j-profile and the distribution of power required for flat density Fits (dashed line, inset) after 1000 generations of genetic algorithm for the EB=1.0MeV NBCD source functions to target j-profile (solid line, inset) and the distribution of power required for a) flat density 1 CF/15/342 Download
Fig. 11b Fig. 11b. Fits after 1000 generations of genetic algorithm for the EB=1.0MeV NBCD source functions to target j-profile and the distribution of power required for peaked density Fits (dashed line, inset) after 1000 generations of genetic algorithm for the EB=1.0MeV NBCD source functions to target j-profile (solid line, inset) and the distribution of power required for b) peaked density 1 CF/15/343 Download
Fig.12 Fig. 12. Comparison with target j-profiles of NBCD profiles output from TRANSP runs using EB=1.0MeV Fig. 12. Comparison with target j-profiles (solid line) of NBCD profiles output from TRANSP runs using EB=1.0MeV NB powers and locations as suggested by Fig. 11 for a) flat density, b) peaked density scenarios respectively. 1 CF/15/344 Download
Fig. 12 Fig. 12.(amended) Comparison with target j-profiles (solid line) of NBCD profiles output from TRANSP (dashed line) and PENCIL (dotted line, remapped onto rho) using EB=1.0MeV Fig. 12. Comparison with target j-profiles (solid line) of NBCD profiles output from TRANSP (dashed line) and PENCIL (dotted line, remapped onto rho) using EB=1.0MeV with NB powers and locations as suggested by Fig. 11 for a) flat density, b) peaked density scenarios respectively 0 CF/16/148 Download