Absorption efficiency enhancement of silicon photodetectors via nanophotonic photon management
Absorption efficiency enhancement of silicon photodetectors via nanophotonic photon management
Efficient and high-speed photodetection in the NIR is essential in several applications such as LiDAR and imaging. Silicon is an established choice as the base material for absorbing and converting photons to charge carriers. However, its high absorption length in the NIR imposes a trade-off between the absorption efficiency and detection bandwidth. Here, the rigorous coupled-wave analysis method together with the particle swarm optimization algorithm has been employed to optimize photonic crystal slab architectures with hexagonal symmetry to achieve efficient coupling of incoming pulses of light to the guided modes of the silicon photodetector. Our optimal design yields an ultra-efficient compact photodetector with more than 80% average absorption in the wavelength range 700 – 900 nm. Furthermore, considering scatterers of arbitrarily shaped polygonal cross-section, augments significantly the landscape in the optimization parameter space and results in further enhancement of the absorption efficiency. Our results show that introducing different length scales in the texturing leads to efficient broadband absorption in the compact device.
Vafa, Ali P.
7a1055f3-8dc0-467d-8d1c-54e7067a480e
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
Andrews, David L.
cda6ad85-b896-4d75-b439-ea2e3b804a7c
Bain, Angus J.
d405d60a-691e-47e7-bc7a-69ff3fc19e4e
Ambrosio, Antonio
a4c36696-8222-43af-9772-932c498de3b3
10 June 2024
Vafa, Ali P.
7a1055f3-8dc0-467d-8d1c-54e7067a480e
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
Andrews, David L.
cda6ad85-b896-4d75-b439-ea2e3b804a7c
Bain, Angus J.
d405d60a-691e-47e7-bc7a-69ff3fc19e4e
Ambrosio, Antonio
a4c36696-8222-43af-9772-932c498de3b3
Vafa, Ali P. and Florescu, Marian
(2024)
Absorption efficiency enhancement of silicon photodetectors via nanophotonic photon management.
Andrews, David L., Bain, Angus J. and Ambrosio, Antonio
(eds.)
(doi:10.1117/12.3028681).
Record type:
Conference or Workshop Item
(Poster)
Abstract
Efficient and high-speed photodetection in the NIR is essential in several applications such as LiDAR and imaging. Silicon is an established choice as the base material for absorbing and converting photons to charge carriers. However, its high absorption length in the NIR imposes a trade-off between the absorption efficiency and detection bandwidth. Here, the rigorous coupled-wave analysis method together with the particle swarm optimization algorithm has been employed to optimize photonic crystal slab architectures with hexagonal symmetry to achieve efficient coupling of incoming pulses of light to the guided modes of the silicon photodetector. Our optimal design yields an ultra-efficient compact photodetector with more than 80% average absorption in the wavelength range 700 – 900 nm. Furthermore, considering scatterers of arbitrarily shaped polygonal cross-section, augments significantly the landscape in the optimization parameter space and results in further enhancement of the absorption efficiency. Our results show that introducing different length scales in the texturing leads to efficient broadband absorption in the compact device.
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Published date: 10 June 2024
Identifiers
Local EPrints ID: 501303
URI: http://eprints.soton.ac.uk/id/eprint/501303
PURE UUID: 2240fd2c-f817-4c03-9fc1-dde0a4274756
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Date deposited: 28 May 2025 16:56
Last modified: 29 May 2025 02:16
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Contributors
Author:
Ali P. Vafa
Author:
Marian Florescu
Editor:
David L. Andrews
Editor:
Angus J. Bain
Editor:
Antonio Ambrosio
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