READ ME File For 'Dataset for Single electron memory effect using random telegraph signals at room temperature' Dataset DOI: https://doi.org/10.5258/SOTON/D0843 ReadMe Author: Kouta Ibukuro, University of Southampton This dataset supports the publication: AUTHORS: Kouta Ibukuro, Muhammad Khaled Husain, Zuo Li, Joseph Hillier, Fayong Liu, Isao Tomita, Yoshishige Tsuchiya, Harvey Rutt and Shinichi Saito TITLE: Single electron memory effect using random telegraph signals at room temperature JOURNAL: Frontiers in Physics (Quantum Computing) PAPER DOI: This dataset contains: All figures that appear in the publication in the folder ‘Figures’. Raw data for measurement for each figure in the folder ‘Raw_data’. Figures in the publication (Figure 1,2,…6) correspond to the files in the folder ‘Figures’ as follows; Figure 1; figure1-eps-converted-to.pdf Figure 2; figure2-eps-converted-to.pdf Figure 3; figure3-eps-converted-to.pdf Figure 4; figure4-eps-converted-to.pdf Figure 5; figure5-eps-converted-to.pdf Figure 6; figure6-eps-converted-to.pdf Figure 2, 3, 4, 5, 6 were generated based on the experimental data, whose raw data are available in the folder ‘raw_data’. Below are explanations of how each figure was generated using the raw data. Figure 2 (a) main and inset The following data were used; prsw_TG_p15 [(1) ; 03_05_2018 11_58_52].csv prsw_TG_p14 [(1) ; 03_05_2018 11_57_54].csv prsw_TG_p12 [(1) ; 03_05_2018 11_56_56].csv prsw_TG_p10 [(1) ; 03_05_2018 11_55_58].csv prsw_TG_p08 [(1) ; 03_05_2018 11_54_59].csv prsw_TG_p06 [(1) ; 03_05_2018 11_54_01].csv prsw_TG_p04 [(1) ; 03_05_2018 11_53_03].csv prsw_TG_p02 [(1) ; 03_05_2018 11_52_05].csv prsw_TG_0_[(1); 03_05_2018 11_28_03].csv prsw_TG_n02 [(1) ; 03_05_2018 11_50_09].csv prsw_TG_n04 [(1) ; 03_05_2018 11_49_11].csv prsw_TG_n06 [(1) ; 03_05_2018 11_48_13].csv prsw_TG_n08 [(1) ; 03_05_2018 11_47_15].csv prsw_TG_n10 [(1) ; 03_05_2018 11_46_17].csv prsw_TG_n12 [(1) ; 03_05_2018 11_45_19].csv prsw_TG_n14 [(1) ; 03_05_2018 11_44_21].csv prsw_TG_n15 [(1) ; 03_05_2018 11_43_22].csv This figure is generated by plotting Drain_I(column G, row 217-end) against Gate_V(column B, row 217-end) for all csv files, superimposed in a single figure. Matlab was used to generate both plots (linear and log scale). (b) The following data was used; SET048_D [(1) ; 8_13_2018 4_55_51 PM].csv This figure is generated by plotting Drain_I against Drain_V. Gate_V was 0.5V to 1V. Matlab was used to generate a plot. Figure 3 The following data were used; x02y02xx02yy01_TG_500m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_600m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_700m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_800m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_900m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1000m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1100m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1200m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1300m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1400m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1500m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1600m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1700m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1800m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1900m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_2000m_FG_ground_D_200mV_100us_500ms_20s_delay.csv (a) to (d) were generated by plotting drain current against time. (e) to (h) were generated by Matlab function histcounts. The derivation of (i), (j) and its inset, (k) are clearly defined in the main text and the caption of the figure. Figure 4 The following data were used; WGFMU SET048 SEM ((18) _x02y02xx02yy01_D200mV_PG_mode_; 11_9_2018 4_06_56 PM.csv WGFMU SET048 SEM ((1) ; 11_9_2018 4_57_55 PM.csv WGFMU SET048 SEM ((16) _x02y02xx02yy01_D200mV_fast_IV_; 11_9_2018 4_01_26 PM.csv WGFMU SET048 SEM ((14) _x02y02xx02yy01_D200mV_2_; 11_9_2018 3_57_44 PM.csv WGFMU SET048 SEM ((13) _x02y02xx02yy01_D200mV_1_; 11_9_2018 3_54_43 PM.csv WGFMU SET048 SEM ((19) _x02y02xx02yy01_D200mV_6_; 11_9_2018 4_52_00 PM.csv WGFMU SET048 SEM ((15) _x02y02xx02yy01_D200mV_3_; 11_9_2018 4_00_06 PM.csv (a) to (g) are the drain current against time, from 0ms to 150ms. Current range is fixed to 4.5nA to 7.5nA. The voltage pulse waveform is also shown in each figure, which is also available in the csv file. (h) to (n) are also the drain current plot against time, but the current range as well as the time span is also different. The current range is 450nA to 520nA, while the time is limited from 45ms to 65ms. All the values are extracted from csv files. Figure 5 The following data was used; X12Y01_XX04YY1_B.rar Origin was used to plot the data. Figure 6 (a) and (b) The following data were used; x02y02xx02yy01_TG_500m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_600m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_700m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_800m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_900m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1000m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1100m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1200m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1300m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1400m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1500m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1600m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1700m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1800m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_1900m_FG_ground_D_200mV_100us_500ms_20s_delay.csv x02y02xx02yy01_TG_2000m_FG_ground_D_200mV_100us_500ms_20s_delay.csv The derivations of (a) and (b) are clearly explained in the main text. Information about geographic location of data collection: University of Southampton, U.K. Related projects: This work is supported by EPSRC Manufacturing Fellowship (EP/M008975/1), Lloyds Register Foundation International Consortium of Nanotechnology, and the Joint Research Project e-SI-Amp (15SIB08). This work is also supported by the European Metrology Programme for Innovation and Research (EMPIR) co-financed by the Participating States and from the European Union's Horizon 2020 research and innovation programme. License: CC BY Date that the file was created: [27th August, 2019]