Electrically Tunable Optical Nonlinearities in Graphene-Covered SiN Waveguides Characterized by Four-Wave Mixing
Abstract
We present a degenerate four-wave mixing experiment on a silicon nitride (SiN) waveguide covered with gated graphene. We observe strong dependencies on signal-pump detuning and Fermi energy, i.e. the optical nonlinearity is demonstrated to be electrically tunable. In the vicinity of the interband absorption edge (2|EF|≈ ω) a peak value of the waveguide nonlinear parameter of ≈ 6400 m-1W-1, corresponding to a graphene nonlinear sheet conductivity |σs(3)|≈4.3· 10-19 A m2V-3 is measured.
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