A summary of the research data supporting "Trapped Fields > 1 T in a Bulk Superconducting Ring by Pulsed Field Magnetization." The dataset related to 
this publication ("Tsui et al IEEE Dataset 15-03-22.xlsx") can be opened in Microsoft Excel and is available at https://doi.org/10.17863/CAM.75432

Sheet 1: Trapped field data using the single-pulsed method at different temperatures.
Data plotted in figure 1, giving the applied field dependence of the trapped field at 77, 73, 70 and 65 K using the single-pulse method.The rise time of the
magnetizing pulse was 25 ms.

Sheet 2: Trapped field achieved using the multi-pulse, step-wise cooling (MPSC) method. Data are for 3 pulse sequences: 1A, 1B and 1C. 
Temperature was dropped from 73 to 65 K during each sequence. The rise time of the magnetizing pulse was 25 ms.
Data displayed in figure 2 are given here.

Sheet 3: MPSC data: trapped field achieved using MPSC method. Data are for 3 pulse sequences: 2A, 2B and 2C. 
Temperature was dropped from 73 to 65 K during each sequence. The rise time of the magnetizing pulse for sequences 2A, 2B and 2C are 25, 44 and 69 ms, respectively.
Data plotted in figure 3 are given here.

Sheet 4: MPSC data: trapped field achieved using MPSC method. Data are for 2 pulse sequences: 3A and 3B. 
Temperature was dropped from 73 to 55 K during each sequence. The rise time of the magnetizing pulse for sequences 2A was 25 ms. The rise time of the first
magnetizing pulse for sequence 3B was 69 ms and the rise time of the magnetizing pulses for the rest of the sequence was 25 ms.
Data plotted in figure 4 are given here.

Sheet 4: MPSC data: trapped field distribution along the crystallographic c-axis.
Data are for the MPSC sequence 3A. Measurements were taken at the centre and 3mm above and below the centre of the sample bore. Trapped fields are the maximum 
trapped field achieved at each temperature in sequence 3A.
Data plotted in figure 5 are given here.