Dataset for W.Xiao et al., Flexible Thin Film Optical Solar Reflectors with Ta2O5-based Multimaterial Coatings for Space Radiative Cooling Dataset DOI: 10.5258/SOTON/D2602 Date that the file was created: September, 2023 ------------------- GENERAL INFORMATION ------------------- ReadMe Author: Otto Muskens, University of Southampton orcid.org/0000-0003-0693-5504 -------------------------- SHARING/ACCESS INFORMATION -------------------------- Licenses/restrictions placed on the data, or limitations of reuse:CC-BY This dataset supports the publication: AUTHORS:Xiao, W., Dai, P., Singh, H. J., Ajia, I. A., Yan, X., Wiecha, P. R., Huang, R., De Groot, C. H. ., Muskens, O. L., & Sun, K. TITLE:Flexible thin film optical solar reflectors with Ta2O5-based multimaterial coatings for space radiative cooling JOURNAL:APL Photonics, 8(9) PAPER DOI IF KNOWN:https://doi.org/10.1063/5.0156526 -------------------- DATA & FILE OVERVIEW -------------------- Dataset consists of a single excel file with spreadsheet for each subfigure/figure with following formats Main manuscript Figure 1: Figure 1a: no associated data. Figure 1b: no associated data. Figure 1c: Sheet Figure 1c Wavelength (Row 1) vs imaginary refractive index(k) for SiN (Row 2), SiO2 (Row 3), Ta2O5 (Row 4), TiO2 (Row 5) and Al2O3 (Row 6). Figure 2: no associated data. Figure 3: Figure 3a: no associated data. Figure 3b_top: Sheet Figure 3b Wavelength (um) (Row 1) vs absorption for Al (Row 2), S (Row 3) and T (Row 4). Figure 3b_bottom: Sheet Figure 3b Wavelength (um) (Row 1) vs absorption for S (Row 2) and T (Row 3). Figure 3c: Sheet Figure 3c Wavelength(um) (Row 1) vs Absorption of each layer, layer1-19 from top to bottom, at Row 2-20, respectively. Figure 4: Figure 4a: no associated data. Figure 4b: no associated data. Figure 4c: Sheet Figure 4c Wavelength (um) (Row 1/3) vs absorption for S (Row 2) and T (Row 4). Figure 5: Figure 5a: Sheet Figure 5a Wavelength (um) (Row 1) vs absorption at different angles (20 dec to 70 dec)for S and T, at Row 2-7. Figure 5b: Sheet Figure 5b Incidence angle (Rom 1), Epsilon_sim (Row 2), Epsilon 8-13um (Row 3), Alpha Sim (Row 4), Epsilon exp (Row 5) and Epislon exp 8-13um (Row 6). Figure 5c: Sheet Figure 5c Wavelength (um) (Row 1) vs absorption at different angles (20 dec to 70 dec)for S and T, at Row 2-7. Figure 5d: Sheet Figure 5d Incidence angle (Rom 1), Epsilon_sim (Row 2), Alpha_sim (Row 3), Epsilon exp (Row 4). -------------------------- Readme created 09/2023