Triple-channel reflective splitter in terahertz band by second-order Littrow illumination

Abstract: In this paper, a triple-channel reflective beam splitter in terahertz band with connecting layer under second Bragg incidence is presented. A rigorous coupled-wave analysis is applied to optimize the profile of the grating at 2.52 THz. The optimal parameters of the grating are also verified by using the finite element method to ensure the accuracy of the data. The impact of the incident angle, incident wavelength, duty cycle, and period is analyzed in detail. For the optimized grating working in terahertz band… Show more

“…[15][16][17][18] Teng et al 19 proposed two types of quad-beam splitters based on coding metamaterials, which can achieve 1 × 4 and 2 × 2 beams, within the terahertz frequency range. Liu et al 20 designed a triple-channel reflective beam splitter at the terahertz of 2.52 THz with a connecting layer under a second Bragg incidence. Fang et al 21 designed a polarization-independent beam splitter through a three-layer grating ridge that produces a nine-port output at the wavelength of 1550 nm.…”

Polarization insensitivity induced for 1 × 9 splitter with T-type SiO2 grating ridge

“…[15][16][17][18] Teng et al 19 proposed two types of quad-beam splitters based on coding metamaterials, which can achieve 1 × 4 and 2 × 2 beams, within the terahertz frequency range. Liu et al 20 designed a triple-channel reflective beam splitter at the terahertz of 2.52 THz with a connecting layer under a second Bragg incidence. Fang et al 21 designed a polarization-independent beam splitter through a three-layer grating ridge that produces a nine-port output at the wavelength of 1550 nm.…”

Polarization insensitivity induced for 1 × 9 splitter with T-type SiO2 grating ridge

Ultrahigh efficiency and ultralow threshold energy all-optical switch based on state transition of defective waveguide networks

Bidirectional trifunctional splitter with two sided microstructure