Acetylene frequency references in gas-filled hollow optical fiber and photonic microcells

Chenchen Wang; Natalie V. Wheeler; Coralie Fourcade Dutin; Michael Grogan; Thomas D. Bradley; Brian R. Washburn; Fetah A. Benabid; Kristan L. Corwin

doi:10.1364/AO.52.005430

Article dans une revue

Acetylene frequency references in gas-filled hollow optical fiber and photonic microcells

Chenchen Wang ¹ Natalie V. Wheeler ² Coralie Fourcade Dutin ^{2, 3} Michael Grogan ² Thomas D. Bradley ^{2, 3} Brian R. Washburn ¹ Fetah A. Benabid ^{2, 3} Kristan L. Corwin ¹

1 Kansas State University

2 University of Bath [Bath]

3 XLIM-PHOTONIQUE - PHOTONIQUE

XLIM - XLIM

Abstract : Gas-filled hollow optical fiber references based on the P(13) transition of the ν1+ν3 band of C122H2 promise portability with moderate accuracy and stability. Previous realizations are corrected (<1σ) by using proper modeling of a shift due to line-shape. To improve portability, a sealed photonic microcell is characterized on the C122H2ν1+ν3 P(23) transition with somewhat reduced accuracy and stability. Effects of the photonic crystal fiber, including surface modes, are explored. Both polarization-maintaining (PM) and non-PM 7-cell photonic bandgap fiber are shown to be unsuitable for kilohertz-level frequency references.

Type de document :

Article dans une revue

Domaine :

Sciences de l'ingénieur [physics] / Optique / photonique

Liste complète des métadonnées

https://hal-unilim.archives-ouvertes.fr/hal-00924661
Contributeur : Frédéric Gerome <>
Soumis le : mardi 7 janvier 2014 - 09:50:43
Dernière modification le : mardi 6 octobre 2020 - 16:28:05

Acetylene frequency references in gas-filled hollow optical fiber and photonic microcells

Identifiants

Collections

Citation

Exporter

Métriques

274

Acetylene frequency references in gas-filled hollow optical fiber and photonic microcells

Identifiants

Collections

Citation

Exporter

Partager

Métriques

274