On-chip Brillouin processing for coherent optical communications

A. Choudhary; E. Giacoumidis; M. Pelusi; E. Magi; D. Marpaung; T. Inoue; K. Vu; D.-Y. Choi; P. Ma; S. Madden; B. Corcoran; S. Namiki; B.J. Eggleton

doi:10.23919/MOC.2017.8244488

On-chip Brillouin processing for coherent optical communications

A. Choudhary
, E. Giacoumidis
, M. Pelusi
, E. Magi
, D. Marpaung
, T. Inoue
, K. Vu
, D.-Y. Choi
, P. Ma
, S. Madden
, B. Corcoran
, S. Namiki
, B.J. Eggleton

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

2 Citations (Scopus)

Abstract

We present our recent results on harnessing the nonlinear stimulated Brillouin scattering effect on a photonic chip for coherent optical communications. At the transmitter-end, an optical frequency comb was regenerated through on-chip Brillouin scattering for 64-level QAM communications. At the receiver-end, low-latency self-homodyne reception was achieved through Brillouin-assisted carrier recovery.

Original language	English
Title of host publication	22nd Microoptics Conference, MOC 2017
ISBN (Electronic)	978-4-8634-8609-6
DOIs	https://doi.org/10.23919/MOC.2017.8244488
Publication status	Published - 2017
Externally published	Yes
Event	22nd Microoptics Conference, MOC 2017 - Tokyo, Japan Duration: 19 Nov 2017 → 22 Nov 2017 Conference number: 22

Conference

Conference	22nd Microoptics Conference, MOC 2017
Abbreviated title	MOC 2017
Country/Territory	Japan
City	Tokyo
Period	19/11/17 → 22/11/17

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10.23919/MOC.2017.8244488

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@inproceedings{1a1627480a264b11b5205eaec13b1f09,

title = "On-chip Brillouin processing for coherent optical communications",

abstract = "We present our recent results on harnessing the nonlinear stimulated Brillouin scattering effect on a photonic chip for coherent optical communications. At the transmitter-end, an optical frequency comb was regenerated through on-chip Brillouin scattering for 64-level QAM communications. At the receiver-end, low-latency self-homodyne reception was achieved through Brillouin-assisted carrier recovery.",

author = "A. Choudhary and E. Giacoumidis and M. Pelusi and E. Magi and D. Marpaung and T. Inoue and K. Vu and D.-Y. Choi and P. Ma and S. Madden and B. Corcoran and S. Namiki and B.J. Eggleton",

year = "2017",

doi = "10.23919/MOC.2017.8244488",

language = "English",

isbn = "978-1-5090-4924-0",

booktitle = "22nd Microoptics Conference, MOC 2017",

note = "22nd Microoptics Conference, MOC 2017, MOC 2017 ; Conference date: 19-11-2017 Through 22-11-2017",

}

TY - GEN

T1 - On-chip Brillouin processing for coherent optical communications

AU - Choudhary, A.

AU - Giacoumidis, E.

AU - Pelusi, M.

AU - Magi, E.

AU - Marpaung, D.

AU - Inoue, T.

AU - Vu, K.

AU - Choi, D.-Y.

AU - Ma, P.

AU - Madden, S.

AU - Corcoran, B.

AU - Namiki, S.

AU - Eggleton, B.J.

N1 - Conference code: 22

PY - 2017

Y1 - 2017

N2 - We present our recent results on harnessing the nonlinear stimulated Brillouin scattering effect on a photonic chip for coherent optical communications. At the transmitter-end, an optical frequency comb was regenerated through on-chip Brillouin scattering for 64-level QAM communications. At the receiver-end, low-latency self-homodyne reception was achieved through Brillouin-assisted carrier recovery.

AB - We present our recent results on harnessing the nonlinear stimulated Brillouin scattering effect on a photonic chip for coherent optical communications. At the transmitter-end, an optical frequency comb was regenerated through on-chip Brillouin scattering for 64-level QAM communications. At the receiver-end, low-latency self-homodyne reception was achieved through Brillouin-assisted carrier recovery.

UR - https://www.scopus.com/pages/publications/85045829752

U2 - 10.23919/MOC.2017.8244488

DO - 10.23919/MOC.2017.8244488

M3 - Conference contribution

SN - 978-1-5090-4924-0

BT - 22nd Microoptics Conference, MOC 2017

T2 - 22nd Microoptics Conference, MOC 2017

Y2 - 19 November 2017 through 22 November 2017

ER -

On-chip Brillouin processing for coherent optical communications

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