【Device Papers】Effect of Temperature and High Electric Field on the Responsivity and Speed-performance of Gallium Oxide UV Photodetectors

      Researchers from the National Research Tomsk State University have published a dissertation titled "Effect of Temperature and High Electric Field on the Responsivity and Speed-performance of Gallium Oxide UV Photodetectors" in IEEE Sensors Journal.

Abstract

      Gallium oxide films were deposited by radio-frequency magnetron sputtering in an Ar/O₂ atmosphere. Post-deposition annealing at 900 °C in argon for 30 minutes yielded polycrystalline β-phase Ga₂O₃ films with high stoichiometric quality (O/Ga ≈ 1.5). The resulting films had a thickness of 390 nm and exhibited a transmittance exceeding 70% in the long-wavelength region λ ≥ 310 nm. The band gap of the film increases from 4.74 eV to 4.87 eV as the temperature decreases from 350 K to 10 K. The photoconductivity of MSM-structures at temperatures below 150 K is governed by space-charge-limited currents. Trap-filled limiting voltages of 25 V, 37 V, 49 V and 55 V were observed at 10 K, 50 K, 77 K and 100 K, respectively, corresponding to trap concentrations of 1.8×1017 cm^-3, 2.7×1017 cm^-3, 3.6×10¹⁷ cm^-3 and 4.2×10¹⁷ cm^-3. The devices demonstrated extremely low dark currents ID ≤ 20 pA at 500 V and a responsivity peak of 1.42 A/W at 150 K and 1100 V, indicating an internal gain mechanism. UV detectors based on Pt/β-Ga₂O₃/Pt exhibit high-speed performance, with response and recovery times of 38 ms and 8 ms, respectively. Time-dependent photoresponse analysis revealed a decrease in rise time from 69 ms to 36 ms and in decay time from 37 ms to 10 ms as the temperature increased from 10 K to 350 K, with minimal dependence on the applied voltage.

DOI：

https://doi.org/10.1109/JSEN.2025.3615232