@Article{Papadogianni_prmat_2022,
  author        = {Alexandra Papadogianni and Charlotte Wouters and Robert Schewski and Johannes Feldl and Jonas Lähnemann and Takahiro Nagata and Elias Kluth and Martin Feneberg and Rüdiger Goldhahn and Manfred Ramsteiner and Martin Albrecht and Oliver Bierwagen},
  journal       = {Phys. Rev. Materials},
  title         = {Molecular beam epitaxy of single-crystalline bixbyite {(In$_{1-x}$Ga$_{x}$)$_{2}$O$_{3}$} films (x $\leq$ 0.18): Structural properties and consequences of compositional inhomogeneity},
  year          = {2022},
  month         = {mar},
  note          = {15 pages},
  number        = {3},
  pages         = {033604},
  volume        = {6},
  abstract      = {In this work, we show the heteroepitaxial growth of single-crystalline bixbyite (In$_{1-x}$Ga$_x$)$_2$O$_3$ films on (111)-oriented yttria-stabilized zirconia substrates using plasma-assisted molecular beam epitaxy under various growth conditions. A pure In$_2$O$_3$ buffer layer between the substrate and (In$_{1-x}$Ga$_x$)$_2$O$_3$ alloy is shown to result in smoother film surfaces and significantly improved crystallinity. Symmetric out-of-plane 2$\theta - \omega$ x-ray diffraction scans show a single (111) crystal orientation and transmission electron microscopy confirms the single-crystallinity up to $x = 0.18$ and only slight film quality deterioration with increasing Ga content. Partially relaxed layers are demonstrated via reciprocal space mapping with lattice parameters fitting well to Vegard's law. However, the Ga cations are not evenly distributed within the films containing nominally $x > 0.11$: inclusions with high Ga density up to $x = 0.50$ are observed within a "matrix" with $x \approx 0.08$. The cubic bixbyite phase is preserved, in both the "matrix" and the inclusions. Moreover, for $x \geq 0.11$, both the Raman phonon lines as well as the optical absorption onset remain nearly constant. Hard x-ray photoelectron spectroscopy measurements also indicate a widening of the band gap and exhibit similar saturation of the Ga 2p core level position for high Ga contents. This saturation behavior of the spectroscopic properties further supports the limited Ga incorporation into the "matrix" of the film.},
  archiveprefix = {arXiv},
  arxiv         = {2106.09612},
  doi           = {10.1103/PhysRevMaterials.6.033604},
  keywords      = {cond-mat.mtrl-sci},
  primaryclass  = {cond-mat.mtrl-sci},
  publisher     = {American Physical Society ({APS})},
}