All-optical buffer based on temporal cavity solitons operating at 10 Gb/s

Jang, Jae; Erkintalo, Miro; Schroeder, Jochen; Eggleton, Ben; Murdoch, Stuart; Coen, Stephane

All-optical buffer based on temporal cavity solitons operating at 10 Gb/s

https://hdl.handle.net/10779/rmit.27503457

journal contribution

posted on 2024-11-02, 04:51 authored by Jae Jang, Miro Erkintalo, Jochen Schroeder, Ben Eggleton, Stuart Murdoch, Stephane Coen

We demonstrate the operation of an all-optical buffer based on temporal cavity solitons stored in a nonlinear passive fiber ring resonator. Unwanted acoustic interactions between neighboring solitons are suppressed by modulating the phase of the external laser driving the cavity. A new locking scheme is presented that allows the buffer to operate with an arbitrarily large number of cavity solitons in the loop. Experimentally, we are able to demonstrate the storage of 4536 bits of data, written all optically into the fiber ring at 10 Gb/s for 1 min.

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Related Materials

1.
DOI - Is published in 10.1364/OL.41.004526
2.
ISSN - Is published in 01469592

Journal

Optics Letters

Volume

41

Issue

19

Start page

4526

End page

4529

Total pages

4

Publisher

Optical Society of America

Place published

United States

Language

English

Former Identifier

2006076470

Esploro creation date

2020-06-22

Fedora creation date

2017-08-10

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All-optical buffer based on temporal cavity solitons operating at 10 Gb/s

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