Ferroelectric N-polar ScAlN/GaN heterostructures grown by molecular beam epitaxy

Abstract

We demonstrate robust ferroelectricity in single-crystalline wurtzite phase N-polar ScAlN/GaN heterostructures grown on on-axis c-plane sapphire substrates by molecular beam epitaxy. The exactly aligned crystallographic orientation among the ScAlN, GaN, and sapphire substrate has been confirmed using x-ray diffraction measurements. The nearly lattice-matched N-polar Sc0.21Al0.79N/GaN heterostructure shows a highly uniform coercive field (∼4.6 MV/cm at 10 kHz) and remnant polarization (∼90 μC/cm2) across the whole wafer. The reliability of N-polar Sc0.21Al0.79N/GaN ferroelectricity has been systemically characterized using retention and endurance tests. Both the coercive field and remnant polarization exhibit negligible degradation over 105 switching cycles, which is among the best reported for ferroelectric III-nitrides. This work offers a viable path for fully epitaxial heterogeneous integration of ferroelectricity into N-polar III-nitride heterostructures, which, together with the recent demonstration of fully epitaxial ferroelectric metal-polar ScAlN, will find important applications in next-generation high-power and high-frequency electronics, memory electronics, acoustic resonators and filters, optoelectronics, and integrated quantum photonics.

Document Details

Document Type

Pub Defense Publication

Publication Date

Jul 11, 2022

Source ID

10.1063/5.0097117

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