Wavelength-dependent Goos-Hanchen shifts observed in one-dimensional photonic crystal films with different structures

The wavelength modulation method is innovatively adopted to measure the enhanced Goos-Hanchen (GH) shift in one-dimensional photonic crystal (1DPC) instead of typical angular modulation method. Experimental results of two samples show that dramatic effect of the photonic bandgap of different PC films on the reflection coefficient can lead to the large GH shift on several special wavelengths. The large GH shifts at different wavelengths could reveal the structure of films more clearly. The wavelength modulation method will provide a new direction for GH shift sensing and reduce the uncertainty of the calculated results in the measurement of film parameters. (C) 2022 Elsevier B.V. All rights reserved.

Automated summary

The wavelength modulation method is used to measure the enhanced Goos-Hanchen shift in one-dimensional photonic crystal, showing the significant effect of the photonic bandgap on the shift. This method provides a new direction for GH shift sensing and reduces the uncertainty in calculating film parameters.