Harnessing opto-acoustic interactions for on-chip optical isolation

  • Eggleton, Benjamin (Chief Investigator)
  • Madden, Steven (Chief Investigator)
  • Poulton, Christopher (Chief Investigator)
  • Steel, Michael (Primary Chief Investigator)

    Project: Research

    Project Details

    Description

    Theory and experiment of building one way on-chip optical devices with Brillouin scattering
    StatusActive
    Effective start/end date1/04/2031/03/23
    • Historical perspective and basic principles

      Poulton, C. G., Steel, M. J., Wiederhecker, G. & Thévenaz, L., 2022, Brillouin scattering. Part 1. Eggleton, B. J., Steel, M. J. & Poulton, C. G. (eds.). Cambridge, MA: Academic Press, p. 1-25 25 p. (Semiconductors and Semimetals; vol. 109).

      Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

    • Theoretical formalisms for stimulated Brillouin scattering

      Wolff, C., Poulton, C. G., Steel, M. J. & Wiederhecker, G., 2022, Brillouin scattering. Part 1. Eggleton, B. J., Steel, M. J. & Poulton, C. G. (eds.). Cambridge, MA: Academic Press, p. 27-91 65 p. (Semiconductors and Semimetals; vol. 109).

      Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

    • Noise and pulse dynamics in backward stimulated Brillouin scattering

      Nieves, O. A., Arnold, M. D., Steel, M. J., Schmidt, M. K. & Poulton, C. G., 1 Feb 2021, In: Optics Express. 29, 3, p. 3132-3146 15 p.

      Research output: Contribution to journalArticlepeer-review

      Open Access
      5 Citations (Scopus)