Integrated multi-scheme digital modulations of spoof surface plasmon polaritons

The future wireless communications require different kinds of modulation functions to be integrated in a single intelligent device under different scenarios. Here, we propose a multi-scheme digital modulator to achieve this goal based on integrated spoof surface plasmon polaritons (SPP) in different...

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Veröffentlicht in:	Science China. Information sciences 2020-10, Vol.63 (10), p.202302, Article 202302
Hauptverfasser:	Zhang, Lepeng, Zhang, Haochi, Tang, Min, He, Peihang, Niu, Lingyun, Liu, Liangliang, Lu, Jiayuan, Tang, Wenxuan, Mao, Junfa, Cui, Tiejun
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Schlagworte:	Amplitudes Communication Computer Science Engineering Frequencies Frequency domain analysis Frequency shift keying Information Systems and Communication Service Input output Modulation Phase shift keying Plasmons Polaritons Research Paper Wave propagation Waveguides Wireless communications
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container_title	Science China. Information sciences
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creator	Zhang, Lepeng Zhang, Haochi Tang, Min He, Peihang Niu, Lingyun Liu, Liangliang Lu, Jiayuan Tang, Wenxuan Mao, Junfa Cui, Tiejun
description	The future wireless communications require different kinds of modulation functions to be integrated in a single intelligent device under different scenarios. Here, we propose a multi-scheme digital modulator to achieve this goal based on integrated spoof surface plasmon polaritons (SPP) in different frequency bands. By constructing switchable spoof SPP units, the propagating wave in the proposed spoof SPP waveguide can be manipulated in amplitude domain, frequency domain, and phase domain. As a proof of concept, the integrated multi-scheme digital modulator is experimentally verified to achieve at least three kinds of modulations, including amplitude shift keying, phase shift keying, and frequency shift keying, in a single digital spoof plasmonic waveguide. The simulated and measured results show that the modulator has excellent property of field confinement and is capable of frequency-domain modulation. Hence, the multi-scheme modulation property makes the proposed SPP digital modulator be an effective and reliable candidate for efficient manipulations of SPP waves and for advanced modulation technology
doi_str_mv	10.1007/s11432-020-2972-0
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Here, we propose a multi-scheme digital modulator to achieve this goal based on integrated spoof surface plasmon polaritons (SPP) in different frequency bands. By constructing switchable spoof SPP units, the propagating wave in the proposed spoof SPP waveguide can be manipulated in amplitude domain, frequency domain, and phase domain. As a proof of concept, the integrated multi-scheme digital modulator is experimentally verified to achieve at least three kinds of modulations, including amplitude shift keying, phase shift keying, and frequency shift keying, in a single digital spoof plasmonic waveguide. The simulated and measured results show that the modulator has excellent property of field confinement and is capable of frequency-domain modulation. 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subjects	Amplitudes Communication Computer Science Engineering Frequencies Frequency domain analysis Frequency shift keying Information Systems and Communication Service Input output Modulation Phase shift keying Plasmons Polaritons Research Paper Wave propagation Waveguides Wireless communications
title	Integrated multi-scheme digital modulations of spoof surface plasmon polaritons
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