Design of a metamaterial inspired omega shaped resonator based sensor for industrial implementations
Citation
Altıntaş, O., Aksoy, M., Ünal, E. (2020) . Design of a metamaterial inspired omega shaped resonator based sensor for industrial implementations. Physica E: Low-Dimensional Systems and Nanostructures, 116, art. no. 113734. https://doi.org/10.1016/j.physe.2019.113734Abstract
In this study, the omega shaped resonator based sensor structure by inspiring of metamaterial (MTM) concept is presented at X-band frequency regime for industrial purpose both numerically and experimentally. Four distinguishing applications which are (i) authentic and inauthentic gasoline samples, (ii) authentic and inauthentic diesel samples, (iii) clean and waste lubricant samples and (iv) clean and waste transformer oil samples have been realized by determining dielectric properties of them. Although there are close dielectric constant values between the samples (about 0.65 for (i), 0.25 for (ii), 0.10 for (iii) and 0.15 for (iv)), the proposed sensor sensitively discriminates all sample groups with about a frequency shift of 350 MHz for (i), 180 MHz for (ii), 60 MHz for (iii) and 70 MHz for (iv). Sensor structure can be efficiently used many industrial applications since the results are sensitively and precisely obtained for proposed studies. In addition, the proposed sensor is durable, suitable for real-time applications and long-term stability considering the fabrication technique and nondestructive measurement method.