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The zip file contains 4 files which show high-energy XRD integrated data of the crystallization sequence in Cu-Zr-Al metallic glass. The archive supplements a paper presently under revision in Nature Communications (2020) by Orava et al.

Individual data files are labelled according to the corresponding figures in the above-quoted paper, and details are given below.

Time and temperature (only in “Figure 4 EML in-situ XRD data.xlsx”) are labelled in given rows.

Wavevector, in reciprocal angstrom, is given in the first full column.

The remaining columns represent the synchrotron XRD integrated intensities.

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File name: “Figure 1 in-situ XRD data.xlsx”
This file relates to figure 1 of the paper. The file contains in-situ XRD integrated intensities of Cu-Zr-Al metallic-glass ribbon resistively heated in vacuum at a rate of 150 K/s. At 5000 ms, the heating is turned off and the ribbon is cooled down to room temperature.

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File name: “Figure 2 in-situ XRD data.xlsx”
This file relates to Figure 2 of the paper. The file contains in-situ XRD integrated intensities of Cu-Zr-Al metallic-glass ribbon resistively heated in vacuum at a rate of about 1100 K/s. At 845 ms, the heating is turned off and the ribbon is cooled down to room temperature.

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File name: “Figure 3 He in-situ XRD data.xlsx”
This file relates to Figure 3 of the paper. The file contains in-situ XRD integrated intensities of Cu-Zr-Al metallic-glass ribbon resistively heated in helium atmosphere at a rate of about 1000 K/s. At 1000 ms, the heating is turned off and the ribbon is cooled down to room temperature.

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File name: “Figure 4 EML in-situ XRD data.xlsx”
This file relates to Figure 4 of the paper. The file contains in-situ XRD integrated intensities of Cu-Zr-Al metallic glass while levitated inside an electromagnetic levitator. Up to about 30 s, the glass is heated, the liquidus point is reached about 12 s, and this is followed by cooling for time < 30 s.

Request any supporting information, such as unprocessed raw images, background and geometry calibration files, and any other questions can be emailed to Dr Jiri Orava (orava.jiri@gmail.com; j.orava@ifw-dresden.de) or Dr Ivan Kaban (i.kaban@ifw-dresden.de).