This paper discusses the nonreciprocal effect induced by magnetized semiconductor substrate on surface plasmon mode guided through monolayer graphene. Dispersion relation for the fundamental antisymmetric mode is derived analytically. Nonreciprocal propagation characteristics of fundamental mode is studied as a function of wavelength, graphene layer chemical potential and biasing magnetic field. Fundamental mode exhibits appreciable nonreciprocal dispersion for transversal magnetization of semiconductor substrate in midinfrared and terahertz frequencies. Cutoff wavelength for backward propagating mode is observed above 2.5 T of external biasing field. Cutoff wavelength is found to be decreasing with increase in the biasing magnetic field and cladding index, also identified to be independent of graphene layer chemical potential. Proposed waveguide structure suggests the possibility of realizing one way propagating plasmonic waveguides with widely tunable guiding characteristics and related functional devices such as isolators, modulators, phase shifters and switches for integrated photonic circuits.

• 出版日期2017-1