Readme information for Dataspace files for paper: “Blob Structure and Motion in the Edge and SOL of NSTX” by S.J. Zweben, J.R. Myra, W.M. Davis, D.A. D’Ippolito, T.K. Gray, S.M. Kaye, B.P. LeBlanc, R.J. Maqueda, D.A. Russell, D.P. Stotler and the NSTX-U Team Accepted by Plasma Phys. and Control. Fusion (Dec. 2015) Fig. 1 - all plots can be made from the file “Thomson_table_dspace.txt” (a) columns “Te (eV) OH” and “Te (eV) H” vs. column “radius (cm)” (b) columns “grad Te OH” and “grad Te H” vs. column “radius (cm)” (c) columns “LT OH (cm)” and “LT H (cm)” vs. column “radius (cm)” (d) columns “ne/1e13 OH” and “ne/1e13 H (cm)” vs. column “radius (cm)” (e) columns “grad ne OH” and “grad ne H (cm)” vs. column “radius (cm)” (f) columns “Ln O (cm)” and “Ln H (cm)” vs. column “radius (cm)” Fig. 2 - this is uploaded as a JPEG: “final_blob_regimes.jpg” Fig. 3 – this is uploaded as a JPEG: “blob_definitions.jpg” Fig. 4 – this is uploaded as a JPEG: “final blob_trails.jpg” Fig. 5 – all plots can be made from the file: “blob_database_dspace.txt” (a) column “A OH” vs. column “radius OH” (b) column “A H” vs. column “radius H” (c) column “Vrad OH” vs. column “radius OH” (d) column “Vrad H” vs. column “radius H” (e) column “Vpol OH” vs. column “radius OH” (f) column “Vpol H” vs. column “radius H” Fig. 6 – all plots can be made from the file: “blob_aves_dspace.txt” (a) columns “Nblob OH” and “Nblob H” vs. “radius (cm)” (b) columns “A OH_ave” and “A H_ave” vs. column “radius (cm)”, with error bars “A OH_std” and “A_H_std” (c) columns “Vpol OH_ave” and “Vpol H_ave” vs. column “radius (cm)”, with error bars “Vpol_OH_std” and “Vpol_H_std” (d) columns “Vrad OH_ave” and “Vrad H_ave” vs. column “radius (cm)”, with error bars “Vrad_OH_std” and “Vrad_H_std” (e) columns “ellip_OH_ave” and “ellip_H_ave” vs. column “radius (cm)”, with error bars “ellip_OH_std” and “ellip_H_std” (f) columns “tilt_OH_ave” and “tilt_H_ave” vs. column “radius (cm)”, with error bars “tilt_OH_std” and “tilt_H_std” (g) columns “Lpol_OH_ave” and “Lpol_H_ave” vs. column “radius (cm)”, with error bars “Lpol_OH_std” and “Lpol_H_std” (h) columns “Lrad_OH_ave” and “Lrad_H_ave” vs. column “radius (cm)”, with error bars “Lrad_OH_std” and “Lrad_H_std” Fig. 7 - all plots in Figs. 7(a) and 7(b) can be made from: “Vrad_hist_dspace.txt” (a) columns “nblob OH @ 0 cm”, “nblob OH @ 2 cm”, “nblob OH @ 4 cm”, and “nblob OH @ 6 cm” vs. column “Vrad (km/sec)” (b) columns “nblob H @ 0 cm”, “nblob H @ 2 cm”, “nblob H @ 4 cm”, and “nblob H @ 6 cm” vs. column “Vrad (km/sec)” all plots in Figs. 7(c) and 7(d) can be made from: “Vpol_vs_n_dspace.txt” (c) columns “blobs OH @ 0 cm”, “blobs OH @ 2 cm”, “blobs OH @ 4 cm”, and “blobs OH @ 6 cm” vs. column “norm OH” (d) columns “blobs H @ 0 cm”, “blobs H @ 2 cm”, “blobs H @ 4 cm”, and “blobs H @ 6 cm” vs. column “norm H” Fig. 8 - all plots in Fig. 8(a) and 8(b) can be made from: “Vrad_vs_n_dspace.txt” (a) columns “Vrad OH @ 0 cm”, “Vrad OH @ 2 cm”, “Vrad OH @ 4 cm” and ”Vrad OH @ 6 cm” vs. column “1-1/A OH” (d) columns “Vrad H @ 0 cm”, “Vrad H @ 2 cm”, “Vrad H @ 4 cm” and ”Vrad H @ 6 cm” vs. column “1-1/A H”, with error bars for 6 cm case in “Vrad H 6 cm std” all plots in Fig. 8(c) and 8(d) can be made from: “Vrad_vs_Lpol_dspace.txt” (c) columns “Vrad OH @ 0 cm”, “Vrad OH @ 2 cm”, “Vrad OH @ 4 cm” and ”Vrad OH @ 6 cm” vs. column “Lpol OH (cm)”, with error bars for 6 cm case in “Vrad OH 6 cm std” (d) columns “Vrad H @ 0 cm”, “Vrad H @ 2 cm”, “Vrad H @ 4 cm” and ”Vrad H @ 6 cm” vs. column “Lpol H (cm)” Fig. 9 - all plots can be made from the file: “Velocity_vs_theory_dspace.txt” (a) columns “Vrad OH (km/s)”, Vsl OH (km/s), and Vin OH (km/s)” vs. “radius (cm)”, with error bars “Vrad OH std”, “Vsl OH std”, and “Vin OH std” (b) columns “Vrad H (km/s)”, Vsl H (km/s), and Vin H (km/s)” vs. radius (cm)”, with error bars “Vrad H std”, “Vsl H std”, and “Vin H std” Fig. 10 - all plots can be made from the file: “Velocity_vs_theory_dspace.txt” (a) columns “Vpol OH (km/s)”, Vdia OH (km/s), and VExB OH (km/s)” vs. “radius (cm)”, with error bars “Vpol OH std”, “Vdia OH std”, and “VExB OH std” (b) columns “Vpol H (km/s)”, Vdia H (km/s), and VExB H (km/s)” vs. “radius (cm)”, with error bars “Vpol H std”, “Vdia H std”, and “VExB H std” Fig. 11 – all plots can be made from the file: “Vpol_vs_n_dspace.txt” (a) columns “Vpol OH @ 0 cm”, “Vpol OH @ 2 cm”, “Vpol OH @ 4 cm”, and “Vpol OH @ 6 cm” vs. column “(1-1/norm)” (a) columns “Vpol H @ 0 cm”, “Vpol H @ 2 cm”, “Vpol H @ 4 cm”, and “Vpol H @ 6 cm” vs. column “(1-1/norm)” Fig. 12 – all plots can be made from the file: “blob_database_dspace.txt” (a) column “Vpol OH” vs. “Vrad OH” constrained to “radius OH” of 0±1 cm (b) column “Vpol H” vs. “Vrad H” constrained to “radius H” of 0±1 cm (c) column “Vpol OH” vs. “Vrad OH” constrained to “radius OH” of 2±1 cm (d) column “Vpol H” vs. “Vrad H” constrained to “radius H” of 2±1 cm (e) column “Vpol OH” vs. “Vrad OH” constrained to “radius OH” of 4±1 cm (f) column “Vpol H” vs. “Vrad H” constrained to “radius H” of 4±1 cm (g) column “Vpol OH” vs. “Vrad OH” constrained to “radius OH” of 6±1 cm (h) column “Vpol H” vs. “Vrad H” constrained to “radius H” of 6±1 cm Fig. 13 – all plots can be made from the file: “blob_database_dspace.txt” (a) column “tilt OH” vs. “ellip OH” constrained to “radius OH” of 0±1 cm (b) column “tilt H” vs. “ellip H” constrained to “radius H” of 0±1 cm (c) column “tilt OH” vs. “ellip OH” constrained to “radius OH” of 2±1 cm (d) column “tilt H” vs. “ellip H” constrained to “radius H” of 2±1 cm (e) column “tilt OH” vs. “ellip OH” constrained to “radius OH” of 4±1 cm (f) column “tilt H” vs. “ellip H” constrained to “radius H” of 4±1 cm (g) column “tilt OH” vs. “ellip OH” constrained to “radius OH” of 6±1 cm (h) column “tilt H” vs. “ellip H” constrained to “radius H” of 6±1 cm Fig. 14 – both plots can be made from the file: “blob_database_dspace.txt” (a) columns “RSP OH” vs. “radius OH” and “Vpol/10 OH” vs. “Vpol/10 OH radius”, along with a highly smoothed version of the “RSP OH” data (b) columns “RSP H” vs. “radius H” and “Vpol/10 H” vs. “Vpol/10 radius H”, along with a highly smoothed version of the “RSP OH” data