Compact Slot Microring Resonator for Sensitive and Label-Free Optical Sensing

A novel all-pass slot microring resonator (SMRR), intended for label-free optical biosensing based on silicon-on-insulator platforms, is proposed. The sensor consists of a bent asymmetric directional coupler and an asymmetric-slot microring waveguide. The appropriate slot width of 140 nm is identified by the three-dimensional finite-difference time-domain (3D-FDTD) method for better light-matter interaction in applications. According to numerical calculations, the SMRR sensor with a footprint of 10 mu m x 10 mu m has a concentration sensitivity of 725.71 pm/% for sodium chloride (NaCl) solutions. The corresponding refractive index sensitivity is 403 nm/RIU (refractive index unit), which is approximately six times greater than that of traditional microring resonator sensors. A low detection limit of 0.129% is also achieved. This SMRR is an excellent candidate for label-free optical biosensors due to its compact structure and excellent sensing capability.

Automated summary

A novel all-pass slot microring resonator (SMRR) for label-free optical biosensing is proposed in this paper. Numerical calculations show that the sensor has high concentration and refractive index sensitivity, as well as a low detection limit. The SMRR is an excellent candidate for label-free optical biosensors due to its compact structure and excellent sensing capability.