Your search keyword '"Nguyen, Thach Giang"' showing total 3 results

1. Subwavelength Grating‐Assisted Contra‐Directional Couplers in Lithium Niobate on Insulator.

Author

Han, Xu, Jiang, Yongheng, Xiao, Huifu, Yuan, Mingrui, Nguyen, Thach Giang, Boes, Andreas, Ren, Guanghui, Zhang, Yong, Hao, Qinfen, Su, Yikai, Mitchell, Arnan, and Tian, Yonghui

Subjects

LITHIUM niobate, INSERTION loss (Telecommunication), INTEGRATED circuits, WAVEGUIDES, SILICON nitride, SUBSTRATE integrated waveguides

Abstract

Grating‐assisted contra‐directional couplers are important optical components in photonic integrated circuits (PICs), which can serve as fundamental building blocks for optical (de)multiplexers, switches, filters, and splitters, among others. Recently, lithium niobate on insulator (LNOI) has emerged as an attractive PIC platform with many important active photonic circuit components demonstrated, including electro‐optic modulators and second‐harmonic wavelength converters. Nevertheless, the LNOI component toolbox still lacks some passive photonic circuit components to fulfill the requirements of future high‐performance PICs. In this contribution, a subwavelength grating‐assisted contra‐directional coupler (GACDC) is proposed, designed, and experimentally demonstrated in a silicon nitride‐loaded LNOI waveguide platform. As an example of its applications, a three‐channel wavelength‐division (de)multiplexer is fabricated and experimentally demonstrated by cascading several GACDCs, with a narrow wavelength spacing of 3.2 nm (400 GHz). The measured device insertion loss of each channel is about 2.5 dB with low interchannel crosstalk below −20 dB. A fabrication tolerance analysis is also carried out, indicating that the proposed GACDCs are tolerant to waveguide width variations. [ABSTRACT FROM AUTHOR]

Published

2023

2. Integrated Subwavelength Gratings on a Lithium Niobate on Insulator Platform for Mode and Polarization Manipulation.

Author

Han, Xu, Chen, Li, Jiang, Yongheng, Frigg, Andreas, Xiao, Huifu, Nguyen, Thach Giang, Boes, Andreas, Yang, Jianhong, Ren, Guanghui, Su, Yikai, Mitchell, Arnan, and Tian, Yonghui

Subjects

LITHIUM niobate, SPATIAL filters, INTEGRATED circuits, INSERTION loss (Telecommunication), SILICON nitride, SILICON nitride films, WAVEGUIDES

Abstract

Lithium niobate on insulator (LNOI) has emerged as a promising platform for photonic integrated circuits, with a fast‐growing toolbox of components. This paper proposes, designs, and experimentally demonstrates compact subwavelength grating (SWG) waveguides on an LNOI platform for on‐chip mode and polarization manipulation. To overcome the limitation of waveguide fabrication, the SWGs are designed and formed on a silicon nitride thin film deposited onto the surface of LNOI chip. As proof‐of‐concept devices, the SWG‐based spatial mode filters (including a TE1‐mode‐pass filter and a TE2‐mode‐pass filter) and a TM‐pass polarizer are fabricated successfully on the same chip, with the device lengths of only ≈50 μm. The measured insertion losses for the devices are lower than 3.1 dB, with high extinction ratio larger than 30 dB, at a wavelength of 1550 nm. The proposed and demonstrated SWGs can serve as important building blocks in a series of mode and polarization handling devices for LNOI integrated photonics. [ABSTRACT FROM AUTHOR]

Published

2022

3. Ridge Resonance in Silicon Photonics Harnessing Bound States in the Continuum.

Author

Nguyen, Thach Giang, Ren, Guanghui, Schoenhardt, Steffen, Knoerzer, Markus, Boes, Andreas, and Mitchell, Arnan

Subjects

*BOUND states, *RESONANCE, *PHOTONICS, *SILICON, *SILICON nanowires, *WAVEGUIDES, *NANOWIRES

Abstract

The theoretical analysis and experimental demonstration of a waveguide resonator are presented based on bound states in the continuum in an integrated photonic chip platform. The continuum has the form of a collimated beam of light which is confined vertically in a transverse electric (TE) mode of a silicon slab. The bound state is a discrete transverse‐magnetic (TM)‐like mode of a ridge on the silicon slab. The coupling between the slab and ridge modes results in a single sharp resonance at the wavelength where they phase match. This phenomenon is experimentally demonstrated on a silicon photonic chip using foundry‐compatible parameters and it is interfaced on‐chip to standard single‐mode silicon nanowire waveguides. The fabricated chip exhibits a single sharp resonance near 1550 nm with a line width of a few nanometers, an extinction ratio of 25 dB, and a thermal stability of 19.5 pm °C−1. It is believed that the demonstration of a resonance operating near a bound state in the continuum realized using guided wave components will form the basis of a new approach to on‐chip wavelength filtering and sensing applications. [ABSTRACT FROM AUTHOR]

Published

2019