Individual data files are provided for each figure in the paper.
For figures with a large number of sub-panels, a separate file is provided for each sub-panel or for groups of sub-panels with similar data.

All data files are in ASCII format.

Names of the variables are indicated in each data file for each curve or set of data in the figure.
When data points are identified by a shot number or TRANSP RunID in the figure, sets of data for each shot/run are provided separately. Shot numbers and/or RunIDs are indicated in the data label/tag.
When applicable, units are indicated with the variable they refer to.

————————————————————————————————————————

Figure 1
For panels (a) and (b), data are provided for the Pz and muB/E axes. Data for the rms energy variations are given as a set of rows, each rows refers to a values of muB/E.
For panels (c) and (d), data are provided for the DE and DPz axes. Data for the probability transport matrix are given as a set of rows, each rows refers to a values of DPz.

Figure 2
The data file contains 2 sets of data:
- Raw values of squared mode amplitude and power transferred to the mode from the simulation
- Vectors with values of squared mode amplitude and power transferred to the mode from a fit of the data from the simulation

Figure 3
For panel (a) the data set contains values of time and squared mode amplitude 
For panel (b) the data set contains values of time and and power transferred to the mode from the simulation
For both panels (c) and (d), the data file contains 2 sets of data:
- Raw values of squared mode amplitude and power transferred to the mode from the simulation
- Vectors with values of squared mode amplitude and power transferred to the mode from a fit of the data from the simulation

Figure 4
Data are split into two files for panels (a)-(b) and for panel (c)
For panels (a) and (b), the data set contains the displacement vs poloidal flux for the total displacement and for each of the poloidal harmonics of the mode.
For panel (c), the data set contains curves of the upper/lower TAE continuum and Doppler shift frequency. Data representing the two modes are given as frequency vs poloidal flux.

Table 1
A PDF is provided for data in Table 1.

Figure 5
Data are split into two files for panels (a)-(c) and for panels (d)-(g).
For panel (a) the data set contains time traces of central electron density and temperature.
For panel (b) the data set contains the time trace of injected Neutral Beam power.
For panel (c) the data set contains time traces of central and minimum value of the safety factor.
For panels (d) through (g), the data sets contain curves of the upper/lower TAE continuum and Doppler shift frequency. Data representing the eigenmodes from NOVA are given as frequency vs poloidal flux.

Figure 6
Data for panel (a) are given for each toroidal mode number.
For panel (b), data are given for each toroidal mode number as a function of the mode frequency.

Figure 7
For panels (a) and (b) the data set for each toroidal mode number contains gamma/omega data and uncertainties from NOVA-K and Kick model.
For panel (c), the data set for each toroidal mode number contains the ratio of linear growth rate with/without FLR effects included in NOVA-K.

Figure 8
For panels (a) and (b) the data set contains amplitude for each mode as a function of time.

Figure 9
For each panel, TRANSP results are given as a function of time for each TRANSP Run.
For panel (a), the experimental neutron rate is also provided as a function of time.

Figure 10
The data file contains the following information:
- Time basis
- Frequency basis
- Spectrum. Each line contains data at a fixed frequency (in ascending order) vs time
Same information is provided for the contour plot shown in the inset of Figure 10.

Figure 11
For panel (a) the data set contains the reconstructed mode number spectral amplitude vs frequency for each toroidal mode number.
Linear growth rate from the different models are given for each toroidal mode number for panels (b)-(d).

Figure 12
For panel (a) the data set contains Time basis, Radius basis and relative density fluctuations. Each line contains data at a fixed time vs radius.
For panels (b) through (e) the data sets contain results of relative density fluctuation level derived from each TRANSP Run vs time and the values obtained from the experiment.

Figure 13
For panel (a) the data set contains values of time and mode amplitude for each TRANSP run.
For panels (b) and (c) the data set contains the neutron rate vs squared mode amplitude from each TRANSP run, along with the results of a fit of neutron rate vs mode amplitude. 

Figure 14
The data set contains values of time and mode amplitude for each toroidal mode number.

Figure 15
For panels (a) through (d) the data sets contain results of relative density fluctuation level derived from TRANSP vs time and the values obtained from the experiment.

Figure 16
For each panel, TRANSP results are given as a function of time for each TRANSP Run.
For panel (a), the experimental neutron rate is also provided as a function of time.

Figure A1
For panel (a), the data set contains (R,Z) variables of the NSTX wall and of the Last Closed Flux Surface.
Data are provided for the contour of magnetic field fluctuation: vectors for radius and elevation, and fluctuation level at each elevation Z. (R,Z) trajectory data are also given for two particles.
For panel (b), raw (Psi,theta) data for the Poincare’ plot are provided along with orbits in (Psi,theta) for the same particles shown in panel (a).

Figure A2
For panels (a) and (b) the data set contains time traces of energy and Pz evolution, along with E and Pz values for the samples at fixed time interval.
For panel (c), data are provided for the DE and DPz axes. Data for the probability transport matrix are given as a set of rows, each rows refers to a values of DPz
For panel (d), data are provided for the Pz and muB/E axes. Data for the rms energy variations are given as a set of rows, each rows refers to a values of muB/E

Figure A3
A PDF with the diagram in Figure A3 is provided.