On the thickness scaling of ferroelectricity in Al <sub>0.78</sub> Sc <sub>0.22</sub> N films
Sung-Lin Tsai, Takuya Hoshii, Hitoshi Wakabayashi, Kazuo Tsutsui, Tien‐Kan Chung, Edward Yi Chang, Kuniyuki Kakushima
Abstract
Abstract Thickness scaling on ferroelectric properties of sputter-deposited poling-free Al 0.78 Sc 0.22 N films has been examined. The c -axis oriented films were confirmed by X-ray rocking curve measurements with a film as thin as 10 nm. Ferroelectric-type hysteresis and poling-free behaviors are observed from the capacitance measurements, even with a thickness of 20 nm. The remnant polarization ( P r ) shows a gradual degradation when the thickness is less than 35 nm. The switching (SW) cycle test reveals a wake-up effect for the film, especially for thick films of over 35 nm. A longer SW cycle of over 10 5 times can be obtained with thinner Al 0.78 Sc 0.22 N films around 20 nm at the cost of P r .