![]() Bernabeu, Diffraction of gratings with rough edges. Cao, Single-order diffraction grating designed by trapezoidal transmission function. Cui, Elimination of higher order diffraction using zigzag transmission grating in soft x-ray region. Xie, High-order diffraction suppression using modulated groove position gratings. Zheng, Quasi-sinusoidal single-order diffraction transmission grating used in x-ray spectroscopy. Ye, Characterization of the diffraction properties of quantum-dot-array diffraction grating. Ding, Single order x-ray diffraction with binary sinusoidal transmission grating. Pelouard, Realization of sinusoidal transmittance with subwavelength metallic structures. Tan, Resist shaping for replication of micro-optical elements with continuous relief in fused silica. Wolf, in Principles of Optics (Pergamon, London, 1980) Schattenburg, Blazed high-efficiency x-ray diffraction via transmission through arrays of nanometer-scale mirrors. Neauport, Diffraction gratings: from principles to applications in high-intensity lasers. Loewen, in Diffraction Grating Handbook (Newport Corp., 2005) Jin, Surface-plasmon-enhanced GaN-LED based on a multilayered M-shaped nano-grating. Schnabel, Phase and alignment noise in grating interferometers. de Brito, Advances on the Brazilian toroidal grating monochromator (TGM) beamline. Strong, The Johns Hopkins University and diffraction gratings. ![]() It is also discuss the feasibility of various nanofabrication techniques for high volume manufacturing 2D quasi-periodic gratings at the nanoscale. This chapter reviews the optical properties of 2D quasi-periodic gratings comprised of quasi-triangle array of holes, and details the effects of hole shape and location distribution on the high-order diffraction suppression. In recent years, 2D quasi-periodic diffraction gratings have emerged that seek to suppress high-order diffractions, and to be compatibility with silicon planar process. However, conventional 2D diffraction gratings often suffer from wavelength overlapping caused by high-order diffractions, and producing diffraction gratings with nanometer feature size still remains a challenge. Two-dimensional (2D) diffraction gratings are playing an increasingly important role in the optics community due to their promising dispersion properties in two perpendicular directions. ![]()
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