Electrical characterization of ALD HfO2 high-k dielectrics on (201) β-Ga2O3.

The electrical quality of HfO2 dielectrics grown by thermal atomic layer deposition at 175 °C on n-type (201) β-Ga2O3 has been studied through capacitance- and current-voltage measurements on metal-oxide-semiconductor capacitors. These capacitors exhibited excellent electrical characteristics, including dual-sweep capacitance-voltage curves with low hysteresis and stretch-out and a frequency-stable dielectric constant of k ~14 when measured between 10 kHz and 1MHz. The C-V curves exhibited a uniform and repeatable +1.05V shift relative to the ideal case when swept from 3.5 to ~5V, yielding positively measured flatband (+2.15 V) and threshold (+1.05 V) voltages that may be useful for normally off n-channel Ga2O3 devices. Using the Terman method, an average interface trap density of 1.3 x 1011 cm-2eV-1 was obtained between 0.2 and 0.6 eV below the conduction band edge. The forward bias current-voltage characteristic was successfully fitted to the Fowler-Nordheim tunneling model at a field strength of 5MV/cm, allowing an extraction of a 1.3 eV conduction band offset between HfO2 and Ga2O3, which matches the value previously determined from x-ray photoelectron spectroscopy. However, a temperature dependence in the leakage current was observed. These results suggest that HfO2 is an appealing dielectric for Ga2O3 device applications. [ABSTRACT FROM AUTHOR]