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@MISC{Mller:1032436,
      author       = {Möller, Sören and Durdel, Axel and Streck, Luiza and
                      Muzakka, Khoirul Faiq and Finsterbusch, Martin},
      title        = {3 {M}e{V} {P}roton {I}on beam analysis of {NCA}/{S}i
                      anode-cathode mapping},
      publisher    = {Zenodo},
      reportid     = {FZJ-2024-06242},
      year         = {2024},
      abstract     = {The dataset presents 2140 ion-beam-analysis (IBA)
                      measurements of a NCA cathode and a Si/G anode using
                      2970+-20 keV protons. Figure 1 shows an example of the
                      result. The anode and cathode foils were cycled in a full
                      liquid electrolyte cell for 340 cycles and analysed in the
                      state-of-charge =0. The cell consisted of 20 cathode and 20
                      anode layer from which 2 cathode and 2 anode layers from the
                      top (KT, AT) and middle (AM, KM) were extracted for IBA. For
                      practical reasons each of the 110x80 mm² foils was cut into
                      9 equal parts. Four detectors acquire the data
                      simultaneously for RBS, NRA, PIGE, and PIXE. The description
                      of the end-station and detectors can be found here:
                      https://doi.org/10.3390/instruments5010010. Each point on
                      the sample consists of 4 files, four detector spectra. The
                      filename consists of the sample name, three positions in
                      units of nm (X, Y, Z), a rotation in units of µ° followed
                      by an underscore ( $_$ ) and the type of data contained in
                      the file (RBS, NRA, PIXE, PIGE, or Meta). Only X and Z
                      positions are relevant in this case as indicated in the
                      attached figure. The RBS, NRA, and PIGE detector files
                      contain a header specifying the dead- and live-time followed
                      by two columns. The first column represents the digital
                      channel of the detector. The second column represents the
                      counts acquired in this channel. This format is readable as
                      ASCI by SimNRA7. SimNRA 7 reference evaluations are included
                      in the dataset. The PIXE file contains the number of
                      channels in the first row/header and only the counts in the
                      subsequent rows. The channel is given by the row number.
                      This format is readable by GUPIXWIN3. Example GUPIXWIN files
                      are included The channels of the detector files can be
                      re-calculated using a calibration shown in the following
                      table 1. Certain drifts in the calibrations are possible,
                      but should be limited to below $2\%$ of the given value. All
                      points are integrated to the same ion dose of 2 µC. This
                      corresponds to a Particle*Sr of about 5.0E+10 (RBS
                      detector), 5.4E+11 (NRA). Table 1: Detector calbration
                      enabling a recalculation of channels to energy. Units are in
                      keV Detector Linear (multiply with channel) Offset (add to
                      first result) RBS 2.8 10 NRA 5.5 10 PIXE 0.184 1.5 PIGE 0.85
                      0},
      cin          = {IMD-2},
      cid          = {I:(DE-Juel1)IMD-2-20101013},
      pnm          = {1222 - Components and Cells (POF4-122)},
      pid          = {G:(DE-HGF)POF4-1222},
      typ          = {PUB:(DE-HGF)32},
      doi          = {10.5281/ZENODO.14096283},
      url          = {https://juser.fz-juelich.de/record/1032436},
}