@article{spqeo25n1p108,
  title = {The silicon model photonic structure for a full-function thermal photodetector},
  author = {K.V. Andrieieva and L.A. Karachevtseva and K.P. Konin and A.I. Liptuga and O.O. Lytvynenko and D.V. Morozovska},
  journal = {Semiconductor Physics, Quantum Electronics \& Optoelectronics},
  year = {2022},
  volume = {25},
  number = {1},
  pages = {108--112},
  doi = {10.15407/spqeo25.01.108},
  url = {https://doi.org/10.15407/spqeo25.01.108},
  abstract = {The out-of-plane optical properties of a combined one-two-dimensional comb-type photonic structure based on macroporous silicon under illumination with polarized normally incident light have been experimentally investigated. Technologically simple quasi-periodic structure with parallel air grooves in the form of mutually overlapping macropores (i.e., one-dimensional air/Si type structure) together with macropores arbitrarily distributed over the crystal surface (two-dimensional air/Si structure) was studied in comparison with the calculated one-dimensional periodic metal lattice on silicon. It is shown that this combined air/Si photonic structure has significant polarization selectivity and can serve as a basis for developing the full-function out-of-plane thermal photodetector on macroporous silicon.},
  keywords = {thermal photodetector, macroporous silicon, polarization-sensitive device}
}
