Beam shaping for ultra-compact waveguide crossings on monolithic silicon photonics platform.

Sujith Chandran,Bo Peng,Jaime Viegas,Colleen Meagher,Yusheng Bian,Ken Giewont,John Pellerin,Michal Rakowski,Jan Petykiewicz,Zoey Sowinski,Rod Augur,Won Suk Lee,Shuren Hu,Karen Nummy,Ajey P Jacob,Dave Riggs,Abu Thomas,Andy Stricker,Anthony W Yu ,M Dahlem ,T Letavic ,Paulo F Moreira

doi:10.1364/ol.402446

Beam shaping for ultra-compact waveguide crossings on monolithic silicon photonics platform.

Sujith Chandran, Bo Peng + Show 20 more

https://doi.org/10.1364/ol.402446

Copy DOI

Journal: Optics letters	Publication Date: Nov 11, 2020
Citations: 14

Affiliation: Khalifa University of Science and Technology, GlobalFoundries (United States), University of Southern California, IMEC

#Beam Shaping Approach #Monolithic Platform + Show 8 more

Abstract
Full-Text PDF
Similar Papers

Abstract

A beam shaping approach has been implemented to realize high-performance waveguide crossings based on cosine tapers. Devices with a compact footprint of 4.7µm×4.7µm were fabricated on the GLOBALFOUNDRIES 45 nm monolithic silicon photonics platform (45 CLO technology). Fabricated devices are found to be nearly wavelength independent (±0.035dB for 1260nm≤λ≤1360nm) with low insertion loss (∼0.2dB) and crosstalk (-35dB). The measured response of the devices is consistent with the three-dimensional finite-difference time-domain simulation results. The design stability is validated by measuring the device insertion loss on eight chips, which is found to be 0.197±0.017dB at the designed center wavelength of 1310 nm.

Full Text