Authors:	N. Ye, G. Muliuk, J. Zhang, S. Uvin, D. Van Thourhout, G. Roelkens, A. J. Trindade, C. Bower
Title:	High-Alignment-Accuracy Transfer Printing of Passive Silicon Waveguide Structures
Format:	International Journal
Publication date:	1/2018
Journal/Conference/Book:	Optics Express
Volume(Issue):	26(2) p.2023-2032
DOI:	10.1364/oe.26.002023
Citations:	8 (Dimensions.ai - last update: 21/4/2024) 2 (OpenCitations - last update: 19/4/2024) Look up on Google Scholar
Download:	(1.9MB)

Abstract

We demonstrate the transfer printing of passive silicon devices on a silicon-on-insulator target waveguide wafer. Adiabatic taper structures and directional coupler structures were designed for 1310 nm and 1600 nm wavelength coupling tolerant for 1 μm misalignment. The release of silicon devices from the silicon substrate was realized by underetching the buried oxide layer while protecting the back-end stack. Devices were successfully picked by a PDMS stamp, by breaking the tethers that kept the silicon coupons in place on the source substrate, and printed with high alignment accuracy on a silicon photonic target wafer. Coupling losses of -1.5 dB for the adiabatic taper at 1310 nm wavelength and -0.5 dB for the directional coupler at 1600 nm wavelength are obtained.

Related Research Topics

• Transfer printing technology

Related Projects

• H2020: TOPHIT (Transfer print operations for heterogeneous integration technologies)