Detecting Different Concentrations of Potassium Chloride Using the Sensor with Photonic Crystal in Nano Range

Sensitivity  scheme with sensing and evaluating chemicals have been  clued-up by means of photonic sensors by coalescing chemical constituents with their optophysical properties. In this article we have corroborated a 2D ring resonator using photonic crystal optical sensor which can detect potassium chloride by knowing the transmitted flux. According to the corresponding analogy  peaks were explored. Yee’s method has been used for the assessment. Electromagnetic  2D model implemented to do the initiation  all pass ring resonator photonic crystal. The  different concentrations of potassium chloride respectively shifts its values with the respected frequency used in the design. The quality factor from the sensor is found to be  347663 and the sensitivity included is found to be in the range of 1.2 NM. The distinction in the minor level of the refractive index  occur the alteration for the cause in the judicious forming the frequency that is obtained by observing the simulation. These technique that is used to  authorize the design which is  unequivocally an active sensors. This analogy of the paper was been made using the  deliberated   IPKISSIMEC tool. The GDSII file was generated with the OWL VISION tool and  substantiated meticulously using the tool K-Layout . The ASCII code was formed using the generated  OWLVISION tool.