Readme file for "Multi-species impurity granule injection and mass deposition projections in NSTX-U discharges"  by R. Lunsford et al.,

Figure 1 : Image of the Granule Injector Apparatus

Figure 2 : 3 Frame filmstrip of a granule injection

Figure 3 : Content of carbon granule injection, number of atoms injected for 700 and 300 micron granules.  Data file contains column headers

Figure 4 : Content of boron carbide granule injection, number of atoms injected for 700 and 300 micron granules.  Data file contains column headers

Figure 5 : Image of the ablation characteristics of a neutral gas shielded granule

Figure 6 : Granule Ablation duration for D3D experiments, Data file contains column headers

Figure 7 : Ablatant deposition for lithium granule injection.  Data file headers as follows  
C1 : Radial Position
C2 : H mode electron density 
C3 : 700 micron granule into H mode
C4 : 500 micron granule into H mode
C5 : 300 micron granule into H mode
C2 : L mode electron density 
C3 : 700 micron granule into L mode
C4 : 500 micron granule into L mode
C5 : 300 micron granule into L mode

Figure 8: Ablatant deposition for boron granule injection.  Data file headers as follows  
C1 : Radial Position
C2 : H mode electron density 
C3 : 700 micron granule into H mode
C4 : 500 micron granule into H mode
C5 : 300 micron granule into H mode
C2 : L mode electron density 
C3 : 700 micron granule into L mode
C4 : 500 micron granule into L mode
C5 : 300 micron granule into L mode

Figure 9: Ablatant deposition for carbon granule injection.  Data file headers as follows  
C1 : Radial Position
C2 : H mode electron density 
C3 : 700 micron granule into H mode
C4 : 500 micron granule into H mode
C5 : 300 micron granule into H mode
C2 : L mode electron density 
C3 : 700 micron granule into L mode
C4 : 500 micron granule into L mode
C5 : 300 micron granule into L mode

Figure 10: Velocity scan for ablatant deposition (Image only)