Charge Trapping in SiO₂ Substrate during Electron Beam Deposition of CaF₂ Thin Films
Description
This dataset supports the study of charge trapping phenomena in Si/SiO₂ substrates during the electron beam deposition of CaF₂ thin films of varying thicknesses (50-277 nm). The research hypothesis suggests that electron beam deposition induces charge trapping in the defect centers of the SiO₂ layer which is observed as distinct photoelectron (PE) peaks in the PE spectra of Si/SiO₂/CaF₂ structures. PE spectra were collected under high vacuum conditions using ultraviolet photons (4.2–6.2 eV) to measure electron emission. The results reveal distinct electron trapping peaks in the SiO₂ substrate, with their intensity varying depending on the thickness of the CaF₂ films and the electron irradiation dose. The dataset includes: 1. X-Ray diffraction (XRD) patterns of CaF₂ films and SiO₂/Si substrate obtained in the grazing incidence mode. 2. Atomic force microscopy (AFM) characterization of CaF₂ film on Si/SiO₂ substrate: surface image of the film and its cross-section. 3. PE data: 3.1. PE spectra of CaF₂ films with varying thicknesses, as well as spectra of the bare Si/SiO₂ substrate (Fig.4). 3.2. PE spectra of the bare Si/SiO₂ substrate before and after irradiation with 1.5 keV electrons to analyze electron trapping (Fig.5). 3.3. Normalized integrated PE intensity for CaF₂ films of different thicknesses as a function of electron irradiation dose (Fig.6). The electron irradiation dose was determined by the deposition time of each CaF₂ film. 3.4. PE spectra of 50 nm, 125 nm, and 277 nm thick CaF₂ films on Si/SiO₂ substrates after additional electron irradiation with varying doses (Fig.7).
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Funding
European Regional Development Fund
1.1.1.2/VIAA/1/16/167
Grantová Agentura České Republiky
20-21069S
European Structural and Investment Funds; Czech Ministry of Education, Youth and Sports
CZ.02.01.01/00/22_008/0004596