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Schwaigert, Tobias; Salmani-Rezaie, Salva; Barone, Matthew R.; Paik, Hanjong; Ray, Ethan; Williams, Michael D.; Muller, David A.; Schlom, Darrell G.; Ahadi, Kaveh (, Journal of vacuum science technology A Vacuum surfaces and films)Strain-engineering is a powerful means to tune the polar, structural, and electronic instabilities of incipient ferroelectrics. KTaO3 is near a polar instability and shows anisotropic superconductivity in electron-doped samples. Here, we demonstrate growth of high-quality KTaO3 thin films by molecular-beam epitaxy. Tantalum was provided by either a suboxide source emanating a TaO2 flux from Ta2O5 contained in a conventional effusion cell or an electron-beam-heated tantalum source. Excess potassium and a combination of ozone and oxygen (10% O3 + 90% O2) were simultaneously supplied with the TaO2 (or tantalum) molecular beams to grow the KTaO3 films. Laue fringes suggest that the films are smooth with an abrupt film/substrate interface. Cross-sectional scanning transmission electron microscopy does not show any extended defects and confirms that the films have an atomically abrupt interface with the substrate. Atomic force microscopy reveals atomic steps at the surface of the grown films. Reciprocal space mapping demonstrates that the films, when sufficiently thin, are coherently strained to the SrTiO3 (001) and GdScO3 (110) substrates.more » « less
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Hazra, Sankalpa; Schwaigert, Tobias; Ross, Aiden; Lu, Haidong; Saha, Utkarsh; Trinquet, Victor; Akkopru‐Akgun, Betul; Gregory, Benjamin_Z; Mangu, Anudeep; Sarker, Suchismita; et al (, Advanced Materials)Abstract Strong coupling between polarization (P) and strain (ɛ) in ferroelectric complex oxides offers unique opportunities to dramatically tune their properties. Here colossal strain tuning of ferroelectricity in epitaxial KNbO3thin films grown by sub‐oxide molecular beam epitaxy is demonstrated. While bulk KNbO3exhibits three ferroelectric transitions and a Curie temperature (Tc) of ≈676 K, phase‐field modeling predicts that a biaxial strain of as little as −0.6% pushes itsTc> 975 K, its decomposition temperature in air, and for −1.4% strain, toTc> 1325 K, its melting point. Furthermore, a strain of −1.5% can stabilize a single phase throughout the entire temperature range of its stability. A combination of temperature‐dependent second harmonic generation measurements, synchrotron‐based X‐ray reciprocal space mapping, ferroelectric measurements, and transmission electron microscopy reveal a single tetragonal phase from 10 K to 975 K, an enhancement of ≈46% in the tetragonal phase remanent polarization (Pr), and a ≈200% enhancement in its optical second harmonic generation coefficients over bulk values. These properties in a lead‐free system, but with properties comparable or superior to lead‐based systems, make it an attractive candidate for applications ranging from high‐temperature ferroelectric memory to cryogenic temperature quantum computing.more » « less
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