Abstract
We present the design, fabrication and optical investigation of photonic crystal (PhC) nanocavity drop filters for use as optical biosensors. The resonant cavity mode wavelength and Q-factor are studied as a function of the ambient refractive index and as a function of adsorbed proteins (bovine serum albumin) on the sensor surface. Experiments were performed by evanescent excitation of the cavity mode via a PhC waveguide. This in turn is coupled to a ridge waveguide that allows the introduction of a fluid flow cell on a chip. A response of ∂ λ / ∂ c = ( 4.54 ± 0.66 ) × 1 0 5 nm/M is measured leading to a measured detection limit as good as Δ m = 4.0 ± 0.6 fg or Δ m / Δ A = ( 4.9 ± 0.7 ) × 1 0 2 pg/mm 2in the sensitive area.
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