All-optical graphene-on-silicon slot waveguide modulator based on graphene’s Kerr effect

Ojaghi, Saleh; Golmohammadi, Saeed; Soofi, Hadi

doi:10.1364/ao.427755

Cited by 10 publications

(2 citation statements)

References 55 publications

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“…The performance analysis of the proposed modulator was done using the eigenmode analysis method from the commercial photonic software of lumerical at the wavelengths of 1. 55…”

Section: Me and MDmentioning

confidence: 99%

All-optical hybrid plasmonic waveguide modulator based on Kerr nonlinearity of graphene

2022

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Compared with previous graphene-based optical modulators that can be tuned electrically with the Fermi level, all-optical modulators have attracted much attention due to their ultrafast and broadband response (bandwidth ≈ 200 GHz). To take advantage of hybrid plasmonic waveguides (HPWs) and the nonlinear response of graphene, we proposed all-optical absorption and phase modulators at the wavelength of 1.55 μm and E F ¼ 0.1 eV. The modulators consist of two different geometries, graphene on an HPW and graphene on a double-slot HPW. Compared with the previous graphene-based all-optical modulators, our design has a short-effective waveguide length and higher modulation depth. This was achieved through the incomparable integration of HPW optics and graphene photonics that can be used to design chip-scale, compact, and high-efficiency all-optical modulators.

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“…The performance analysis of the proposed modulator was done using the eigenmode analysis method from the commercial photonic software of lumerical at the wavelengths of 1. 55…”

Section: Me and MDmentioning

confidence: 99%

All-optical hybrid plasmonic waveguide modulator based on Kerr nonlinearity of graphene

2022

Self Cite

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“…Since then, several graphene integrated modulators have been proposed [70][71][72][74][75][76][77][78]. Graphene-based modulators have already demonstrate their ability to outperform traditional modulators, but there is still plenty of room for optimization [68,72,[78][79][80][81]. It has been shown that judicious design and optimization of modulators can enable their unprecedented performance [68,72,[82][83][84].…”

Section: Introductionmentioning

confidence: 99%

Beyond 5G Fronthaul Based on FSO Using Spread Spectrum Codes and Graphene Modulators

Neves

Sanches

Nobrega

et al. 2023

Sensors

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High data rate coverage, security, and energy efficiency will play a key role in the continued performance scaling of next-generation mobile systems. Dense, small mobile cells based on a novel network architecture are part of the answer. Motivated by the recent mounting interest in free-space optical (FSO) technologies, this paper addresses a novel mobile fronthaul network architecture based on FSO, spread spectrum codes, and graphene modulators for the creation of dense small cells. The network uses an energy-efficient graphene modulator to send data bits to be coded with spread codes for achieving higher security before their transmission to remote units via high-speed FSO transmitters. Analytical results show the new fronthaul mobile network can accommodate up to 32 remote antennas under error-free transmissions with forward error correction. Furthermore, the modulator is optimized to provide maximum efficiency in terms of energy consumption per bit. The optimization procedure is carried out by optimizing both the amount of graphene used on the ring resonator and the modulator’s design. The optimized graphene modulator is used in the new fronthaul network and requires as low as 4.6 fJ/bit while enabling high-speed performance up to 42.6 GHz and remarkably using one-quarter of graphene only.

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Ultra-High-Sensitive Sensor Based on Surface Plasmon Resonance Structure Having Si and Graphene Layers for the Detection of Chikungunya Virus

Yupapin

Trabelsi

Dhasarathan³

et al. 2022

Plasmonics

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All-optical graphene-on-silicon slot waveguide modulator based on graphene’s Kerr effect

Cited by 10 publications

References 55 publications

All-optical hybrid plasmonic waveguide modulator based on Kerr nonlinearity of graphene

All-optical hybrid plasmonic waveguide modulator based on Kerr nonlinearity of graphene

Beyond 5G Fronthaul Based on FSO Using Spread Spectrum Codes and Graphene Modulators

Ultra-High-Sensitive Sensor Based on Surface Plasmon Resonance Structure Having Si and Graphene Layers for the Detection of Chikungunya Virus

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