Extending Er-doped CeO₂ thin films to Si(001) substrates to facilitate scalable nanophotonics fabrication

Erbium-doped cerium oxide (Er:CeO₂) thin films grown via molecular beam epitaxy (MBE)¹ have been shown to be a promising platform for the development of quantum memory, with Er³⁺ optical and spin coherence times in excess of 0.6 μs.² The next step towards Er:CeO₂-based quantum memory is integration into nanophotonic cavities, for enhancement of our telecom-wavelength optical transition. One approach is to leverage evanescent coupling of Er in the oxide film with silicon photonic cavity-waveguide structures, employing silicon-on-insulator (SOI).³ SOI typically features Si(001) as the exposed growth surface, so we study here the impact of CeO₂ growth on Si(001) instead of Si(111). Moving our MBE recipe to (001) substrates yields textured CeO₂(011) on Si(001), though we also obtain epitaxial CeO₂(001) on SrTiO₃(001). Optical measurements show 70% broader inhomogeneous linewidths and 20-40% broader spectral diffusion linewidths for Er:CeO₂ grown on (001)-oriented substrates compared to that on (111). We discuss routes to improving these properties in CeO₂ on Si(001), in order match or surpass those on Si(111).

(1) G. Grant, et al., APL Materials 12, 021121 (2024).

(2) J. Zhang, et al., arXiv preprint arXiv:2309.16785 (2023).

(3) C. Ji, et al., ACS Nano 18.14 (2024): 9929-9941.