Developing SiGe on Sapphire Technology

Student: Emmanuel Wangila

Degree: Ph.D, August 2022

Major Professor: Dr. Fisher Yu and Dr. Greg Salamo

Research Area(s):

Microelectronic-Photonic Materials & Devices

View Research Quadslide

Background/Relevance

  • Using sapphire substrate will reduce the parasitic capacitance hence better frequency response and less power loss.

  • Incorporating Sn on Ge  and SiGe induces direct band gap which helps in fabricating photodetectors that are more sensitive to infra-red due to radiative recombination.

Innovation

  • Growing SiGeSn and GeSn material on sapphire that can be used to make photodetector of its kind.

  • The photodetector made, having low parasitic capacitance as a result of using sapphire substrate.

Approach

  • Epitaxial growth of GeSn, SiGe and SiGeSn films on Al2O3 substrates using MBE with Ge/Si buffers
  • Characterize the samples – AFM, XRD, PL, TEM and Ellipsometry

Key Results

  • Achieving a smooth surface morphology and improving the crystal quality
  • Reduction of crystal defects
  • Materials with direct bandgap with increased optical responsivity

Conclusions

  • Sapphire as a dielectric helps in reduction of the parasitic capacitance.

  • Direct bandgap GeSn/ SiGeSn good for fabricating photodetector.

  • Increasing Sn content extends spectral response to longer wavelengths without sacrifice in material quality or responsivity

Future Work

  • Continual investigating of the best growth parameters for GeSn/ SiGeSn growth on sapphire is needful.

  • Investigate the amount of Sn in Ge and SiGe that that results to direct bandgap to give a good optical responsivity