Generalization of the Rouard method to an absorbing thin film stack and application to surface plasmon resonance
Abstract
In the context of surface plasmon resonance (SPR) kinetic biochips, it is important to model the SPR phenomenon (i.e., extinction of reflectivity) toward biochip design and optimization. The Rouard approach that models reflectivity off a thin-film stack is shown to be extendable to any number of absorbing layers with no added complexity. Using the generalized Rouard method, the effect of SPR is simulated as a function of the wavelength for various metal thicknesses. Given an optimal metal thickness, the dependence of SPR on the angle of incidence and wavelength is also demonstrated. Such a model constitutes a potential basis for the efficient design and optimization of multidimensional sensors.
Domains
Optics [physics.optics]
Fichier principal
P56_AO_v45p8419a06_Rouard_extented_Pierre_L_.pdf (342.81 Ko)
Télécharger le fichier
Origin | Publisher files allowed on an open archive |
---|
Loading...