Observation of Temperature-Dependent Capture Cross-Section for Main Deep-Levels in β-Ga2O3
Abstract
Direct observation of capture cross-section is challenging due to the need of extremely short filling pulses in the two-gate Deep-Level Transient Spectroscopy (DLTS). Simple estimation of cross-section can be done from DLTS and Admittance Spectroscopy (AS) data, but it is not feasible to distinguish temperature dependence of pre-exponential and exponential parts of the emission rate equation with sufficient precision conducting a single experiment. This paper presents experimental data of deep-levels in β-Ga2O3 that has been gathered by our group since 2017. Based on the gathered data we propose a derivation of apparent activation energy (Eam) and capture cross-section (σnm) assuming temperature dependent capture via multiphonon emission model, which resulted in strong correlation between Eam and σnm according to Meyer-Neldel rule, which allowed us to estimate low- and high-temperature capture coefficients C0 and C1 as well as capture barrier Eb. It also has been shown that without considering the temperature dependence of capture cross-section, the experimental values of σn are overestimated by 1-3 orders of magnitude. A careful consideration of the data also allows to be more certain identifying deep-levels by their "fingerprints" (Ea and σn) considering two additional parameters (EMN and σ00) and to verify the density functional theory (DFT) computation of deep-level recombination properties.
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