Multiple modes integrated biosensor based on higher order Fano metamaterials
A multiple modes integrated biosensor based on higher order Fano metamaterials (FRMMs) is proposed. The frequency shift (Δf ) of x-polarized quadrupolar (Qx), octupolar (Ox), hexadecapolar (Hx), y-polarized quadrupolar (Qy) and octupolar (Oy) Fano resonance modes are integrated to detect the concentration of lung cancer cells. In experiments, the concentrations of lung cancer cells can be distinguished by the shape and distribution of integrated graphics. In addition, an anomalous response in Δf at resonant mode is surprisingly observed. As increasing the cell concentration, the Δf at the Qx-dip, Qy-dip and Oy-dip successively experience increasing frequency shift stage (IFSS), decreasing frequency shift stage (DFSS) and re-increasing frequency shift stage (RIFSS). The extraordinary DFSS confirmed by single-factor analysis of variance (ANOVA) means an unusual physical phenomenon in metamaterial biosensors. By introducing a new dielectric constant εf, we amend the perturbation theory to explain the unusual phenomenon in Δf. With the change of mode order from Qx to Hx, the εf increases from -2.78 to 0.75, which implies that the negative εf leads to the appearance of DFSS. As a platform for biosensing, this study open a new window though multiple modes integrated perspective.