Attenuated Total Reflection (ATR) dips are interpreted in terms of an open resonator model, in which the evanescent field serves as a lossless energy storage element and the coupling and damping is determined by the properties of a thin metal layer. The appearance of the dips is related to the Brewster condition, without referring to the dispersion relation of Sommerfeld-Zenneck like surface modes. A strong ATR response is conditioned by the relation ${\theta _{crit}} \le {\theta _{Brewster}} \le 90^\circ$ with the critical angle ${\theta _{crit}}$. Outside of this range only a weak response, i.~e., a low field enhancement, is found, even though the reflectivity can become very small. The conditions are in this case comparable to the case of the resonant absorber, a related phenomenon, which can be observed in thin dielectric layers.

Optics communications 586, 131868 (2025). doi:10.1016/j.optcom.2025.131868

Published by [Verlag nicht ermittelbar], Amsterdam