Generation of all-optical Walsh-Hadamard code using silicon micro-ring resonator

Manjur Hossain; Kalimuddin Mondal; Jayanta Kumar Rakshit; Surajit Mandal; Amit Kumar Goyal; Yehia Massoud

doi:10.1117/1.JNP.18.016010

Generation of all-optical Walsh-Hadamard code using silicon micro-ring resonator

Manjur Hossain
, Kalimuddin Mondal
, Jayanta Kumar Rakshit^*
, Surajit Mandal
, Amit Kumar Goyal
, Yehia Massoud

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

Silicon micro-ring resonator-based generation of all-optical (2×2) Walsh-Hadamard code is proposed. The energy-efficient, ultra-high-speed, and compact nature of micro-ring resonator-based devices is essential for optical computing. Both MATLAB and the Ansys Lumerical finite difference time domain (FDTD) approach are used to implement the generation of all-optical (2×2) Walsh-Hadamard code. The proposed design is simulated at about 260 Gbps. In the recommended circuit, the needed pump power for switching is merely 0.84 mW, which is extremely little in contrast. The "figure of merits"of the proposed design is evaluated through numerical simulation. The obtained contrast ratio and extinction ratio are considerably greater at 25.24 and 14.63 dB, respectively. On the other hand, the achieved amplitude modulation of 0.13 dB is extremely low. The on-off ratio for a single micro-ring resonator is 36.9 dB.

Original language	English
Article number	016010
Journal	Journal of Nanophotonics
Volume	18
Issue number	1
DOIs	https://doi.org/10.1117/1.JNP.18.016010
Publication status	Published - 01-01-2024

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1117/1.JNP.18.016010

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title = "Generation of all-optical Walsh-Hadamard code using silicon micro-ring resonator",

abstract = "Silicon micro-ring resonator-based generation of all-optical (2×2) Walsh-Hadamard code is proposed. The energy-efficient, ultra-high-speed, and compact nature of micro-ring resonator-based devices is essential for optical computing. Both MATLAB and the Ansys Lumerical finite difference time domain (FDTD) approach are used to implement the generation of all-optical (2×2) Walsh-Hadamard code. The proposed design is simulated at about 260 Gbps. In the recommended circuit, the needed pump power for switching is merely 0.84 mW, which is extremely little in contrast. The {"}figure of merits{"}of the proposed design is evaluated through numerical simulation. The obtained contrast ratio and extinction ratio are considerably greater at 25.24 and 14.63 dB, respectively. On the other hand, the achieved amplitude modulation of 0.13 dB is extremely low. The on-off ratio for a single micro-ring resonator is 36.9 dB.",

author = "Manjur Hossain and Kalimuddin Mondal and Rakshit, \{Jayanta Kumar\} and Surajit Mandal and Goyal, \{Amit Kumar\} and Yehia Massoud",

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doi = "10.1117/1.JNP.18.016010",

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T1 - Generation of all-optical Walsh-Hadamard code using silicon micro-ring resonator

AU - Hossain, Manjur

AU - Mondal, Kalimuddin

AU - Rakshit, Jayanta Kumar

AU - Mandal, Surajit

AU - Goyal, Amit Kumar

AU - Massoud, Yehia

PY - 2024/1/1

Y1 - 2024/1/1

N2 - Silicon micro-ring resonator-based generation of all-optical (2×2) Walsh-Hadamard code is proposed. The energy-efficient, ultra-high-speed, and compact nature of micro-ring resonator-based devices is essential for optical computing. Both MATLAB and the Ansys Lumerical finite difference time domain (FDTD) approach are used to implement the generation of all-optical (2×2) Walsh-Hadamard code. The proposed design is simulated at about 260 Gbps. In the recommended circuit, the needed pump power for switching is merely 0.84 mW, which is extremely little in contrast. The "figure of merits"of the proposed design is evaluated through numerical simulation. The obtained contrast ratio and extinction ratio are considerably greater at 25.24 and 14.63 dB, respectively. On the other hand, the achieved amplitude modulation of 0.13 dB is extremely low. The on-off ratio for a single micro-ring resonator is 36.9 dB.

AB - Silicon micro-ring resonator-based generation of all-optical (2×2) Walsh-Hadamard code is proposed. The energy-efficient, ultra-high-speed, and compact nature of micro-ring resonator-based devices is essential for optical computing. Both MATLAB and the Ansys Lumerical finite difference time domain (FDTD) approach are used to implement the generation of all-optical (2×2) Walsh-Hadamard code. The proposed design is simulated at about 260 Gbps. In the recommended circuit, the needed pump power for switching is merely 0.84 mW, which is extremely little in contrast. The "figure of merits"of the proposed design is evaluated through numerical simulation. The obtained contrast ratio and extinction ratio are considerably greater at 25.24 and 14.63 dB, respectively. On the other hand, the achieved amplitude modulation of 0.13 dB is extremely low. The on-off ratio for a single micro-ring resonator is 36.9 dB.

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Generation of all-optical Walsh-Hadamard code using silicon micro-ring resonator

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