Hybrid Diamond/Silicon Suspended Integrated Photonic Platform using SF6 Isotropic Etching

Aly Abdou; Jens Richter; Evan L. H. Thomas; Soumen Mandal; Zhong Ren; Rasmus H. Pedersen; Oliver A. Williams; Jeremy Witzens; M.P. Nezhad; Parashara Panduranga

Hybrid Diamond/Silicon Suspended Integrated Photonic Platform using SF6 Isotropic Etching

Aly Abdou, Jens Richter, Evan L. H. Thomas, Soumen Mandal, Zhong Ren, Rasmus H. Pedersen, Oliver A. Williams, Jeremy Witzens, M.P. Nezhad, Parashara Panduranga

School of Computer Science & Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

A hybrid diamond/silicon air-clad ridge waveguide platform is demonstrated. The air-clad structure coupled with the wide transmission window of diamond can allow for the use of this architecture over a large wavelength range, especially for the longer infrared wavelengths. In order to provide vertical confinement, the silicon substrate was isotropically etched using S F6 plasma to create undercut diamond films. An in-depth analysis of the etch characteristics of this process was performed to highlight its potential to replace wet isotropic etching or XeF 2 isotropic vapour phase etching techniques. The performance of the waveguide at 1550 nm was measured, and yielded an average loss of 4.67 +/- 0.47 dB/mm.

Original language	English
Title of host publication	2019 IEEE 2nd British and Irish Conference on Optics and Photonics (BICOP)
Place of Publication	London
Publisher	IEEE
Publication status	Published - 9 Apr 2020

Light Actuated Microrobots
25/06/18 → 31/07/21
Project: Research

Cite this

@inproceedings{0459253d9adb4b228f7428dade38580f,

title = "Hybrid Diamond/Silicon Suspended Integrated Photonic Platform using SF6 Isotropic Etching",

abstract = "A hybrid diamond/silicon air-clad ridge waveguide platform is demonstrated. The air-clad structure coupled with the wide transmission window of diamond can allow for the use of this architecture over a large wavelength range, especially for the longer infrared wavelengths. In order to provide vertical confinement, the silicon substrate was isotropically etched using S F6 plasma to create undercut diamond films. An in-depth analysis of the etch characteristics of this process was performed to highlight its potential to replace wet isotropic etching or XeF 2 isotropic vapour phase etching techniques. The performance of the waveguide at 1550 nm was measured, and yielded an average loss of 4.67 +/- 0.47 dB/mm.",

author = "Aly Abdou and Jens Richter and Thomas, \{Evan L. H.\} and Soumen Mandal and Zhong Ren and Pedersen, \{Rasmus H.\} and Williams, \{Oliver A.\} and Jeremy Witzens and M.P. Nezhad and Parashara Panduranga",

year = "2020",

month = apr,

day = "9",

language = "English",

booktitle = "2019 IEEE 2nd British and Irish Conference on Optics and Photonics (BICOP)",

publisher = "IEEE",

}

TY - GEN

T1 - Hybrid Diamond/Silicon Suspended Integrated Photonic Platform using SF6 Isotropic Etching

AU - Abdou, Aly

AU - Richter, Jens

AU - Thomas, Evan L. H.

AU - Mandal, Soumen

AU - Ren, Zhong

AU - Pedersen, Rasmus H.

AU - Williams, Oliver A.

AU - Witzens, Jeremy

AU - Nezhad, M.P.

AU - Panduranga, Parashara

PY - 2020/4/9

Y1 - 2020/4/9

N2 - A hybrid diamond/silicon air-clad ridge waveguide platform is demonstrated. The air-clad structure coupled with the wide transmission window of diamond can allow for the use of this architecture over a large wavelength range, especially for the longer infrared wavelengths. In order to provide vertical confinement, the silicon substrate was isotropically etched using S F6 plasma to create undercut diamond films. An in-depth analysis of the etch characteristics of this process was performed to highlight its potential to replace wet isotropic etching or XeF 2 isotropic vapour phase etching techniques. The performance of the waveguide at 1550 nm was measured, and yielded an average loss of 4.67 +/- 0.47 dB/mm.

AB - A hybrid diamond/silicon air-clad ridge waveguide platform is demonstrated. The air-clad structure coupled with the wide transmission window of diamond can allow for the use of this architecture over a large wavelength range, especially for the longer infrared wavelengths. In order to provide vertical confinement, the silicon substrate was isotropically etched using S F6 plasma to create undercut diamond films. An in-depth analysis of the etch characteristics of this process was performed to highlight its potential to replace wet isotropic etching or XeF 2 isotropic vapour phase etching techniques. The performance of the waveguide at 1550 nm was measured, and yielded an average loss of 4.67 +/- 0.47 dB/mm.

M3 - Conference contribution

BT - 2019 IEEE 2nd British and Irish Conference on Optics and Photonics (BICOP)

PB - IEEE

CY - London

ER -

Hybrid Diamond/Silicon Suspended Integrated Photonic Platform using SF6 Isotropic Etching

Abstract

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Light Actuated Microrobots

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