100-GHz Radio and Power over Fiber Transmission Through Multicore Fiber Using Optical-to-Radio Converter

Toshimasa Umezawa; Pham Tien Dat; Kenichi Kashima; Atsushi Kanno; Naokatsu Yamamoto; Tetsuya Kawanishi

doi:10.1109/JLT.2017.2731991

100-GHz Radio and Power over Fiber Transmission Through Multicore Fiber Using Optical-to-Radio Converter

Toshimasa Umezawa^*, Pham Tien Dat, Kenichi Kashima, Atsushi Kanno, Naokatsu Yamamoto, Tetsuya Kawanishi

^*Corresponding author for this work

School of Fundamental Science and Engineering

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

33 Citations (Scopus)

Abstract

We designed and fabricated a 100-GHz range integrated photoreceiver with zero-bias operational uni-traveling-carrier photodiode and pseudomorphic high electron mobility transistor amplifier, which performed the roles of photonic power generation and 100-GHz RF signal generation. Using the integrated photoreceiver, high data rate radio- and power-over-fiber transmission through multicore fiber communication was demonstrated. Subsequently, a bit error rate of 1× 10- 3 could be achieved with 12 Gb/s, orthogonal frequency division multiplexing, 16 quadrature amplitude modulation, and an intermediate frequency of 92 GHz. The crosstalk issue in radio- and power-over-fiber transmission through multicore fiber was discussed.

Original language	English
Pages (from-to)	617-623
Number of pages	7
Journal	Journal of Lightwave Technology
Volume	36
Issue number	2
DOIs	https://doi.org/10.1109/JLT.2017.2731991
Publication status	Published - 2018 Jan 15

Keywords

High data rate
UTC-PD
multicore fiber
optical-to-radio converter
power over fiber
radio over fiber

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1109/JLT.2017.2731991

Cite this

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title = "100-GHz Radio and Power over Fiber Transmission Through Multicore Fiber Using Optical-to-Radio Converter",

abstract = "We designed and fabricated a 100-GHz range integrated photoreceiver with zero-bias operational uni-traveling-carrier photodiode and pseudomorphic high electron mobility transistor amplifier, which performed the roles of photonic power generation and 100-GHz RF signal generation. Using the integrated photoreceiver, high data rate radio- and power-over-fiber transmission through multicore fiber communication was demonstrated. Subsequently, a bit error rate of 1× 10- 3 could be achieved with 12 Gb/s, orthogonal frequency division multiplexing, 16 quadrature amplitude modulation, and an intermediate frequency of 92 GHz. The crosstalk issue in radio- and power-over-fiber transmission through multicore fiber was discussed.",

keywords = "High data rate, UTC-PD, multicore fiber, optical-to-radio converter, power over fiber, radio over fiber",

author = "Toshimasa Umezawa and Dat, {Pham Tien} and Kenichi Kashima and Atsushi Kanno and Naokatsu Yamamoto and Tetsuya Kawanishi",

note = "Funding Information: Manuscript received May 9, 2017; revised June 26, 2017; accepted July 19, 2017. Date of publication July 25, 2017; date of current version February 24, 2018. This work was supported in part by the Japanese Government for “R&D to Expand Radio Frequency Resources” by the Ministry of Internal Affairs and Communications and in part by the MIC/SCOPE #165003010. (Corresponding author: Toshimasa Umezawa.) T. Umezawa, P. T. Dat, A. Kanno, and N. Yamamoto are with the Network Science and Convergence Device Technology Laboratory, National Institute of Information and Communications Technology (NICT), Tokyo 184-8795, Japan (e-mail: toshi_umezawa@nict.go.jp; ptdat@nict.go.jp; kanno@nict. go.jp; naokatsu@nict.go.jp). Publisher Copyright: {\textcopyright} 1983-2012 IEEE.",

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AU - Umezawa, Toshimasa

AU - Dat, Pham Tien

AU - Kashima, Kenichi

AU - Kanno, Atsushi

AU - Yamamoto, Naokatsu

AU - Kawanishi, Tetsuya

N1 - Funding Information: Manuscript received May 9, 2017; revised June 26, 2017; accepted July 19, 2017. Date of publication July 25, 2017; date of current version February 24, 2018. This work was supported in part by the Japanese Government for “R&D to Expand Radio Frequency Resources” by the Ministry of Internal Affairs and Communications and in part by the MIC/SCOPE #165003010. (Corresponding author: Toshimasa Umezawa.) T. Umezawa, P. T. Dat, A. Kanno, and N. Yamamoto are with the Network Science and Convergence Device Technology Laboratory, National Institute of Information and Communications Technology (NICT), Tokyo 184-8795, Japan (e-mail: toshi_umezawa@nict.go.jp; ptdat@nict.go.jp; kanno@nict. go.jp; naokatsu@nict.go.jp). Publisher Copyright: © 1983-2012 IEEE.

PY - 2018/1/15

Y1 - 2018/1/15

N2 - We designed and fabricated a 100-GHz range integrated photoreceiver with zero-bias operational uni-traveling-carrier photodiode and pseudomorphic high electron mobility transistor amplifier, which performed the roles of photonic power generation and 100-GHz RF signal generation. Using the integrated photoreceiver, high data rate radio- and power-over-fiber transmission through multicore fiber communication was demonstrated. Subsequently, a bit error rate of 1× 10- 3 could be achieved with 12 Gb/s, orthogonal frequency division multiplexing, 16 quadrature amplitude modulation, and an intermediate frequency of 92 GHz. The crosstalk issue in radio- and power-over-fiber transmission through multicore fiber was discussed.

AB - We designed and fabricated a 100-GHz range integrated photoreceiver with zero-bias operational uni-traveling-carrier photodiode and pseudomorphic high electron mobility transistor amplifier, which performed the roles of photonic power generation and 100-GHz RF signal generation. Using the integrated photoreceiver, high data rate radio- and power-over-fiber transmission through multicore fiber communication was demonstrated. Subsequently, a bit error rate of 1× 10- 3 could be achieved with 12 Gb/s, orthogonal frequency division multiplexing, 16 quadrature amplitude modulation, and an intermediate frequency of 92 GHz. The crosstalk issue in radio- and power-over-fiber transmission through multicore fiber was discussed.

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100-GHz Radio and Power over Fiber Transmission Through Multicore Fiber Using Optical-to-Radio Converter

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