Abstract
It is well known that higher diffraction order suggests a stronger dispersion for gratings with the same period. Here, a broadband high-efficiency three-layer all-dielectric rectangular-groove transmission grating operating at the −2nd order is designed under second Bragg incidence. An initial solution of the grating parameters is obtained quickly by using the simplified modal method (SMM). Moreover, a clear explanation for the physical mechanism behind high efficiency and wide bandwidth is also given through this method. After that, a more accurate solution of the grating structure is optimized in further based on rigorous coupled wave analysis and simulated annealing algorithm. The simulation results indicated that a wavelength bandwidth from $1.454~\mu \text{m}$ to $1.531~\mu \text{m}$ and an angle bandwidth from 37.32° to 43.3° could be achieved for efficiency over 95% under second Bragg incidence at the wavelength of $1.5~\mu \text{m}$ for TE polarization. It is the first time using SMM to predict the broadband characteristic of multilayer-gratings under second Bragg incidence.
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