Determination of near surface refractive index of graded-index waveguides based on surface plasmon resonance

A technique for using surface plasmon resonance to characterize dispersive refractive-index and absorption profiles is reported. This is accomplished by simultaneously exciting surface plasmon resonance at multiple angles and multiple wavelengths and then analyzing the resulting resonance profiles.

The refractive index increments (RIIs) of several important low-molecular-weight compounds that bind to DNA or RNA were determined with a differential refractometer for correction of data obtained on surface plasmon resonance (SPR) biosensors. Although the ability to investigate small molecule-macro

The phase difference change between the s and p polarization lights in surface plasmon resonance sensing systems is strongly influenced by the refractive index of the test sample. In this paper, the phase difference change, measured by common-path phase quadrature interferometry, can be used to esti

A theoretical model of a new integrated planar surface plasmon-polariton (SPP) refractive index sensor is presented and comprehensively investigated. The main principle of operation of this device is based on high efficiency energy transfer between a p-polarized guided mode propagating in a waveguid

In this study an alternative method based on surface plasmon resonance is proposed for in-situ monitoring of variation in the refractive index of a test sample. A wavelength-modulated light source and an unequal-pathlength optical configuration heterodyne interferometer are used to detect the phase

Total internal reflection (TIR) and attenuated total reflection (ATR) measurements in the Kretschmann configuration have been performed at 25 8C with poly(methyl methacrylate) (PMMA) films (of ca. 2.5 lm thickness) spincoated on top of a 50 nm thick gold layer, as a function of the applied hydrostat