Mechanical properties of materials have long been one of the most fundamental and studied
areas of materials science for a myriad of applications. Recently, mechanical metamaterials …

The broad spectrum of electronic and optical properties exhibited by oxides offers
tremendous opportunities for microelectronic devices, especially when a combination of …

Artificially-structured functional materials (AFMs) are artificial media that combine the
advantages of nature materials and artificial structures to produce excellent and unexpected …

In this issue we have endeavored to answer the question,“Whither oxide electronics?” This
issue provides a framework and perspective on the progress in the field of oxide electronics …

This paper presents an electromechanical analysis of the nonlinear static response and the
superimposed small-amplitude wave characteristics in an infinite periodic compressible …

Ultrahigh-frequency acoustic-phonon resonators usually require atomically flat interfaces to
avoid phonon scattering and dephasing, leading to expensive fabrication processes, such …

Optomechanical systems couple an electromagnetic cavity to a mechanical resonator which
typically is a solid object. The range of phenomena accessible in these systems depends on …

Commensurate BaTiO3/SrTiO3 superlattices were grown by reactive molecular-beam
epitaxy on four different substrates: TiO2-terminated (001) SrTiO3,(101) DyScO3,(101) …

We report pump-probe time resolved reflectivity experiments in a hybrid air–Ni metal–BaTiO
3/SrTiO 3 oxide mirror phonon cavity. We demonstrate that the generated coherent acoustic …

Wide-range continuous spatial variation of the film composition in lateral compositionally
graded epitaxial films requires the development of high throughput measurement …