In this paper, we investigate a thin-film sensing approach using split-ring resonators. The sensitivity based on tuned magnetic resonance has been demonstrated using three methods: by depositing the film in the gap, under the rings as an intermediate layer and on the rings as an overlayer. The numerical simulations and experimental results are presented. In addition, the advantages and the limitations of each approach are discussed. Moreover, the sensitivity of the circular rings are compared with that of the square rings.
Elhawil, A, Stiens, J, De Tandt, C, Ranson, W & Vounckx, R 2011, 'Thin-film sensing using circular open ring resonators at mm-wave frequencies', Applied Physics A: Materials Science & Processing, vol. 103, pp. 623-626.
Elhawil, A., Stiens, J., De Tandt, C., Ranson, W., & Vounckx, R. (2011). Thin-film sensing using circular open ring resonators at mm-wave frequencies. Applied Physics A: Materials Science & Processing, 103, 623-626.
@article{7627a6ebf23b461ba3e78e40390eab14,
title = "Thin-film sensing using circular open ring resonators at mm-wave frequencies",
abstract = "In this paper, we investigate a thin-film sensing approach using split-ring resonators. The sensitivity based on tuned magnetic resonance has been demonstrated using three methods: by depositing the film in the gap, under the rings as an intermediate layer and on the rings as an overlayer. The numerical simulations and experimental results are presented. In addition, the advantages and the limitations of each approach are discussed. Moreover, the sensitivity of the circular rings are compared with that of the square rings.",
keywords = "metamaterials, sensors, millimeter waces",
author = "Amna Elhawil and Johan Stiens and {De Tandt}, Cathleen and Willy Ranson and Roger Vounckx",
year = "2011",
month = jan,
language = "English",
volume = "103",
pages = "623--626",
journal = "Applied Physics A: Materials Science & Processing",
issn = "0947-8396",
publisher = "Springer Heidelberg",
}