Goos-Hanchen shifts for Airy beams impinging on graphene-substrate surfaces

The spatial (Delta(GH)) and the angular (Theta(GH)) Goos-Hanchen (GH) shifts for an Airy beam impinging upon a weakly absorbing medium coated with the monolayer graphene are theoretically investigated. The influence of the GH shift on the incident angle, the incident wavelength, the Fermi energy, and the decay factors of Airy beams is discussed. A significant magnification of Delta(GH), which reaches its maximum of about three orders of wavelengths, is predicted. Our findings may provide a feasible tool to obtain a huge Delta(G)(H) in experiments. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement