FDTD Investigation of Efficient and Robust Integration Between Si₃N₄ and Ge-Rich GeSi for Waveguide-Integrated Electro-Absorption Optical Modulators

Abstract: Si3N4 photonic integrated circuits have gain significant and rapid interest in different photonic applications thanks to its superior passive performance. Nevertheless, optical integration between Si3N4 and Ge-based optical components remains critically challenging especially for optical modulation. In this paper, via 3D-FDTD calculations we investigate the optical integration between Si3N4 and Ge-based waveguides using vertical coupling configuration employing amorphous Si (α-Si) as an optical bridge showing … Show more

“…41 In recent years, it has been demonstrated that high-performance photodetectors integrating waveguides can achieve detection in the ultraviolet (UV) to infrared (IR) region. [42][43][44] At present, the waveguide materials employed in the fabrication of photodetectors are mainly Si, Si 3 N 4 , GaN, lithium cyanate (LN), and ZnO, [45][46][47][48][49] which transmit IR, VIS, and UV light, respectively, due to their inherent properties. Since the first successful exfoliation of graphene in 2004, 50 two-dimensional (2D) semiconductor materials have attracted increasing attention in photoelectric detection due to their unique structure and physical properties.…”

Photodetectors integrating waveguides and semiconductor materials

“…41 In recent years, it has been demonstrated that high-performance photodetectors integrating waveguides can achieve detection in the ultraviolet (UV) to infrared (IR) region. [42][43][44] At present, the waveguide materials employed in the fabrication of photodetectors are mainly Si, Si 3 N 4 , GaN, lithium cyanate (LN), and ZnO, [45][46][47][48][49] which transmit IR, VIS, and UV light, respectively, due to their inherent properties. Since the first successful exfoliation of graphene in 2004, 50 two-dimensional (2D) semiconductor materials have attracted increasing attention in photoelectric detection due to their unique structure and physical properties.…”

Photodetectors integrating waveguides and semiconductor materials

FDTD analysis of direct optical integration between SiNx waveguides and Ge/SiGe multiple quantum wells on graded buffer for low-voltage optical modulators around the O-band wavelength

FDTD Investigation of Optical Coupling Between Si3N4 Based Waveguide and III-V Binary Semiconductor Compound Waveguide With Amorphous Si as an Optical Bridge