Highly-Sensitive Unbalanced MZI Gas Sensor Assisted With a Temperature-Reference Ring Resonator

Ayat M. Taha; Soha Yousuf; Marcus S. Dahlem; Jaime Viegas

doi:10.1109/JPHOT.2022.3215713

Highly-Sensitive Unbalanced MZI Gas Sensor Assisted With a Temperature-Reference Ring Resonator

Ayat M. Taha, Soha Yousuf, Marcus S. Dahlem, Jaime Viegas

Electrical Engineering

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

In this paper we study the gas sensing performance of a compact silicon photonics Mach-Zehnder interferometer (MZI) with a coiled sensing arm. A partially exposed sensor was fabricated using deep UV lithography, with a process resolution of 248 nm. Testing with inert gases, He and N 2, resulted in a measured sensitivity and limit of detection of ∼\1458 nm/RIU and ∼8.5×10-5 RIU, respectively, in a sensing volume of 1.852 picoliters. The temperature sensitivity of the sensor was 166 pm/C and the inclusion of a cladded ring-resonator, post-MZI, allowed resolving the temperature drift due to gas flow. In order to further enhance the overlap of the optical mode with the measurand and thus the sensitivity, a suspended MZI was designed and simulated with an expected sensitivity of ∼5500 nm/RIU, for wavelengths around 1550 nm and a temperature of 300 K.

Original language	British English
Article number	6657709
Journal	IEEE Photonics Journal
Volume	14
Issue number	6
DOIs	https://doi.org/10.1109/JPHOT.2022.3215713
State	Published - 1 Dec 2022

Keywords

Mach-Zehnder interferometer
ring resonator
silicon photonics
silicon-on-insulator

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10.1109/JPHOT.2022.3215713

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title = "Highly-Sensitive Unbalanced MZI Gas Sensor Assisted With a Temperature-Reference Ring Resonator",

abstract = "In this paper we study the gas sensing performance of a compact silicon photonics Mach-Zehnder interferometer (MZI) with a coiled sensing arm. A partially exposed sensor was fabricated using deep UV lithography, with a process resolution of 248 nm. Testing with inert gases, He and N 2, resulted in a measured sensitivity and limit of detection of ∼\1458 nm/RIU and ∼8.5×10-5 RIU, respectively, in a sensing volume of 1.852 picoliters. The temperature sensitivity of the sensor was 166 pm/C and the inclusion of a cladded ring-resonator, post-MZI, allowed resolving the temperature drift due to gas flow. In order to further enhance the overlap of the optical mode with the measurand and thus the sensitivity, a suspended MZI was designed and simulated with an expected sensitivity of ∼5500 nm/RIU, for wavelengths around 1550 nm and a temperature of 300 K.",

keywords = "Mach-Zehnder interferometer, ring resonator, silicon photonics, silicon-on-insulator",

author = "Taha, {Ayat M.} and Soha Yousuf and Dahlem, {Marcus S.} and Jaime Viegas",

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AU - Yousuf, Soha

AU - Dahlem, Marcus S.

AU - Viegas, Jaime

PY - 2022/12/1

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N2 - In this paper we study the gas sensing performance of a compact silicon photonics Mach-Zehnder interferometer (MZI) with a coiled sensing arm. A partially exposed sensor was fabricated using deep UV lithography, with a process resolution of 248 nm. Testing with inert gases, He and N 2, resulted in a measured sensitivity and limit of detection of ∼\1458 nm/RIU and ∼8.5×10-5 RIU, respectively, in a sensing volume of 1.852 picoliters. The temperature sensitivity of the sensor was 166 pm/C and the inclusion of a cladded ring-resonator, post-MZI, allowed resolving the temperature drift due to gas flow. In order to further enhance the overlap of the optical mode with the measurand and thus the sensitivity, a suspended MZI was designed and simulated with an expected sensitivity of ∼5500 nm/RIU, for wavelengths around 1550 nm and a temperature of 300 K.

AB - In this paper we study the gas sensing performance of a compact silicon photonics Mach-Zehnder interferometer (MZI) with a coiled sensing arm. A partially exposed sensor was fabricated using deep UV lithography, with a process resolution of 248 nm. Testing with inert gases, He and N 2, resulted in a measured sensitivity and limit of detection of ∼\1458 nm/RIU and ∼8.5×10-5 RIU, respectively, in a sensing volume of 1.852 picoliters. The temperature sensitivity of the sensor was 166 pm/C and the inclusion of a cladded ring-resonator, post-MZI, allowed resolving the temperature drift due to gas flow. In order to further enhance the overlap of the optical mode with the measurand and thus the sensitivity, a suspended MZI was designed and simulated with an expected sensitivity of ∼5500 nm/RIU, for wavelengths around 1550 nm and a temperature of 300 K.

KW - Mach-Zehnder interferometer

KW - ring resonator

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ER -

Highly-Sensitive Unbalanced MZI Gas Sensor Assisted With a Temperature-Reference Ring Resonator

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