Publication:

Electrically driven source of time-energy entangled photons based on a self-pumped silicon microring resonator

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cris.lastimport.scopus

2024-08-08T08:11:06Z

cris.legacyId

277912

cris.virtual.parent-organization

IEM

cris.virtual.parent-organization

STI

cris.virtual.parent-organization

EPFL

cris.virtual.sciperId

313497

cris.virtual.unitId

13060

cris.virtual.unitManager

Sayed, Ali H.

cris.virtualsource.author-scopus

fb7b834b-541d-43aa-986c-b8fb917822af

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fb7b834b-541d-43aa-986c-b8fb917822af

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fb7b834b-541d-43aa-986c-b8fb917822af

cris.virtualsource.parent-organization

d9e1a24f-dd43-4b7e-bb78-c617be6b78dc

cris.virtualsource.parent-organization

d9e1a24f-dd43-4b7e-bb78-c617be6b78dc

cris.virtualsource.parent-organization

d9e1a24f-dd43-4b7e-bb78-c617be6b78dc

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d9e1a24f-dd43-4b7e-bb78-c617be6b78dc

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fb7b834b-541d-43aa-986c-b8fb917822af

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fb7b834b-541d-43aa-986c-b8fb917822af

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d9e1a24f-dd43-4b7e-bb78-c617be6b78dc

cris.virtualsource.unitManager

d9e1a24f-dd43-4b7e-bb78-c617be6b78dc

datacite.rights

metadata-only

dc.contributor.author

Garrisi, Francesco

dc.contributor.author

Sabattoli, Federico Andrea

dc.contributor.author

Sam, Savda

dc.contributor.author

Barone, Andrea

dc.contributor.author

Massara, Micol Previde

dc.contributor.author

Pirzio, Federico

dc.contributor.author

Morichetti, Francesco

dc.contributor.author

Melloni, Andrea

dc.contributor.author

Liscidini, Marco

dc.contributor.author

Galli, Matteo

dc.contributor.author

Bajoni, Daniele

dc.date.accessioned

2020-06-07T02:20:54

dc.date.available

2020-06-07T02:20:54

dc.date.created

2020-06-07

dc.date.issued

2020-05-15

dc.date.modified

2025-05-19T12:43:29.097084Z

dc.description.abstract

Time-energy entangled photon pairs are fundamental resources for quantum communication protocols since they are robust against environmental fluctuations in optical fiber networks. Pair sources based on spontaneous four-wave mixing in silicon microring resonators usually employ expensive external tunable lasers to compensate for ambient fluctuations; adopting self-pumped configurations, instead, lifts the need for such external source. Here we demonstrate the emission of time-energy entangled photon pairs at telecom wavelengths from a silicon self-pumped ring, obtaining a Franson interference fringe with 93.9% +/- 0.9% visibility. (C) 2020 Optical Society of America

dc.description.sponsorship

GR-QUA

dc.identifier.doi

10.1364/OL.389407

dc.identifier.isi

WOS:000535920600021

dc.identifier.uri

https://infoscience.epfl.ch/handle/20.500.14299/169151

dc.publisher

OPTICAL SOC AMER

dc.publisher.place

Washington

dc.relation.issn

0146-9592

dc.relation.issn

1539-4794

dc.relation.journal

Optics Letters

dc.source

WoS

dc.subject

Optics

dc.subject

bell inequality

dc.subject

quantum

dc.subject

generation

dc.title

Electrically driven source of time-energy entangled photons based on a self-pumped silicon microring resonator

dc.type

text::journal::journal article::research article

dspace.entity.type

Publication

dspace.legacy.oai-identifier

oai:infoscience.epfl.ch:277912

epfl.curator.email

manon.velasco@epfl.ch

epfl.legacy.itemtype

Journal Articles

epfl.legacy.submissionform

ARTICLE

epfl.oai.currentset

OpenAIREv4

epfl.oai.currentset

STI

epfl.oai.currentset

article

epfl.peerreviewed

REVIEWED

epfl.publication.version

http://purl.org/coar/version/c_970fb48d4fbd8a85

epfl.writtenAt

EPFL

oaire.citation.endPage

2771

oaire.citation.issue

10

oaire.citation.startPage

2768

oaire.citation.volume

45

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