Fano-Like Resonance from Disorder Correlation in Vacancy-Doped Photonic Crystals.
Fano resonance
correlated disorder
disorder
photonic crystals
vacancy doping
Journal
Small (Weinheim an der Bergstrasse, Germany)
ISSN: 1613-6829
Titre abrégé: Small
Pays: Germany
ID NLM: 101235338
Informations de publication
Date de publication:
Oct 2023
Oct 2023
Historique:
revised:
12
05
2023
received:
20
03
2023
medline:
7
6
2023
pubmed:
7
6
2023
entrez:
7
6
2023
Statut:
ppublish
Résumé
By preparing colloidal crystals with random missing scatterers, crystals are created where disorder is embodied as vacancies in an otherwise perfect lattice. In this special system, there is a critical defect concentration where light propagation undergoes a transition from an all but perfect reflector (for the spectral range defined by the Bragg condition), to a metamaterial exhibiting an enhanced transmission phenomenon. It is shown that this behavior can be phenomenologically described in terms of Fano-like resonances. The results show that the Fano's parameter q experiences a sign change signaling the transition from a perfect crystal exhibiting a reflectance Bragg peak, through a state where background scattering is maximum and Bragg reflectance reaches a minimum to a point where the system reenters a low scattering state recovering ordinary Bragg diffraction. A simple dipolar model considering the correlation between scatterers and vacancies is proposed and the reported evolution of the Fano-like scattering is explained in terms of the emerging covariance between the optical paths and polarizabilities and the effect of field enhancement in photonic crystal (PhC) defects.
Identifiants
pubmed: 37282744
doi: 10.1002/smll.202302355
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e2302355Subventions
Organisme : Spanish
ID : PID2021-124814NB-C21
Organisme : Spanish
ID : PGC2018-095777-B-C22
Organisme : Spanish
ID : PID2019-109905GA-C22
Organisme : "María de Maeztu" Programme for Units of Excellence in R& D
ID : CEX2018-000805-M
Organisme : UAM-CAM
ID : SI1/PJI/2019-00052
Informations de copyright
© 2023 The Authors. Small published by Wiley-VCH GmbH.
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