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Design and Modeling of a Fully Integrated Microring-Based Photonic Sensing System for Liquid Refractometry.

Grigory S VoronkovAida G ZakoyanVladislav IvanovDmitry IraevIvan V StepanovRoman YuldashevElizaveta P GrakhovaVladimir LyubopytovOleg G MorozovRuslan Kutluyarov
Published in: Sensors (Basel, Switzerland) (2022)
The design of a refractometric sensing system for liquids analysis with a sensor and the scheme for its intensity interrogation combined on a single photonic integrated circuit (PIC) is proposed. A racetrack microring resonator with a channel for the analyzed liquid formed on the top is used as a sensor, and another microring resonator with a lower Q-factor is utilized to detect the change in the resonant wavelength of the sensor. As a measurement result, the optical power at its drop port is detected in comparison with the sum of the powers at the through and drop ports. Simulations showed the possibility of registering a change in the analyte refractive index with a sensitivity of 110 nm per refractive index unit. The proposed scheme was analyzed with a broadband source, as well as a source based on an optoelectronic oscillator using an optical phase modulator. The second case showed the fundamental possibility of implementing an intensity interrogator on a PIC using an external typical single-mode laser as a source. Meanwhile, additional simulations demonstrated an increased system sensitivity compared to the conventional interrogation scheme with a broadband or tunable light source. The proposed approach provides the opportunity to increase the integration level of a sensing device, significantly reducing its cost, power consumption, and dimensions.
Keyphrases
  • high speed
  • high resolution
  • molecular dynamics
  • high intensity
  • photodynamic therapy
  • monte carlo
  • mass spectrometry
  • clinical evaluation
  • data analysis