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Demonstration of nearly pinhole-free epitaxial aluminum thin films by sputter beam epitaxy

Ka Ming Law, Sujan Budhathoki, Smriti Ranjit, Franziska Martin, Arashdeep Singh Thind, Rohan Mishra, Adam J. Hauser

2020Scientific Reports10 citationsDOIOpen Access PDF

Abstract

Abstract Superconducting resonators with high quality factors have been fabricated from aluminum films, suggesting potential applications in quantum computing. Improvement of thin film crystal quality and removal of void and pinhole defects will improve quality factor and functional yield. Epitaxial aluminum films with superb crystallinity, high surface smoothness, and interface sharpness were successfully grown on the c-plane of sapphire using sputter beam epitaxy. This study assesses the effects of varying substrate preparation conditions and growth and prebake temperatures on crystallinity and smoothness. X-ray diffraction and reflectivity measurements yield extensive Laue oscillations and Kiessig thickness fringes for films grown at 200 °C under 15 mTorr Ar, indicating excellent crystallinity and surface smoothness; moreover, an additional substrate preparation procedure which involves (1) a modified substrate cleaning procedure and (2) prebake at 700 °C in 20 mTorr O 2 is shown by atomic force microscopy to yield nearly pinhole-free film growth while maintaining epitaxy and high crystal quality. The modified cleaning procedure is environmentally friendly and eliminates the acid etch steps common to conventional sapphire preparation, suggesting potential industrial application both on standard epitaxial and patterned surface sapphire substrates.

Topics & Concepts

CrystallinityMaterials scienceSapphireEpitaxySputteringSubstrate (aquarium)OptoelectronicsThin filmMolecular beam epitaxyCrystal growthCrystal (programming language)Pinhole (optics)WaferOpticsSputter depositionMineralogyComposite materialNanotechnologyCrystallographyChemistryLaserLayer (electronics)Computer sciencePhysicsOceanographyProgramming languageGeologyMicrowave Engineering and WaveguidesAcoustic Wave Resonator TechnologiesOptical Coatings and Gratings
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