Micromachines (Apr 2012)

Strong Electro-Absorption in GeSi Epitaxy on Silicon-on-Insulator (SOI)

  • John E. Cunningham,
  • Ashok V. Krishnamoorthy,
  • Kannan Raj,
  • Roshanak Shafiiha,
  • Mehdi Asghari,
  • Shirong Liao,
  • Cheng-Chih Kung,
  • Joan Fong,
  • Jin-Hyoung Lee,
  • Dazeng Feng,
  • Jin Yao,
  • Hiren Thacker,
  • Ivan Shubin,
  • Guoliang Li,
  • Xuezhe Zheng,
  • Ying Luo

DOI
https://doi.org/10.3390/mi3020345
Journal volume & issue
Vol. 3, no. 2
pp. 345 – 363

Abstract

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We have investigated the selective epitaxial growth of GeSi bulk material on silicon-on-insulator substrates by reduced pressure chemical vapor deposition. We employed AFM, SIMS, and Hall measurements, to characterize the GeSi heteroepitaxy quality. Optimal growth conditions have been identified to achieve low defect density, low RMS roughness with high selectivity and precise control of silicon content. Fabricated vertical <em>p</em>-<em>i</em>-<em>n</em> diodes exhibit very low dark current density of 5 mA/cm<sup>2</sup> at −1 V bias. Under a 7.5 V/µm E-field, GeSi alloys with 0.6% Si content demonstrate very strong electro-absorption with an estimated effective ∆α/α around 3.5 at 1,590 nm. We compared measured ∆α/α performance to that of bulk Ge. Optical modulation up to 40 GHz is observed in waveguide devices while small signal analysis indicates bandwidth is limited by device parasitics.

Keywords