Saved in:
Bibliographic Details
Main Authors: Gačević, Žarko, Vukmirović, Nenad
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.17944
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909089443872768
author Gačević, Žarko
Vukmirović, Nenad
author_facet Gačević, Žarko
Vukmirović, Nenad
contents We provide detailed insights into a link between structural and optical disorder of resonant optical structures, in particular, distributed Bragg reflectors (DBRs) and resonant microcavities. The standard (targeted) DBR structures have periodic square wave like refractive-index profiles, and their optical performance is determined by the refractive index ratio of the two applied materials and the number of DBR periods. It is well known that its structural disorder strongly affects its optical properties, but, despite that, this influence has not been quantitatively addressed in the literature. We propose a precise quantitative definition for a structural disorder of a single DBR unit cell (disorder factor), completing the set of DBR fundamental parameters. Then we expose the basis for the effective refractive index approximation (ERIA), showing that, as long as DBR optical properties are concerned, the influence of increasing structural disorder is virtually identical to the influence of decreasing refractive index ratio, with the latter influence being easily quantified. Making use of the ERIA method, simple analytical formulas, which enable rapid insights into the reflectivity and stop band width of DBRs with different types of transient layers at the heterointerfaces, are derived and the results validated, via both transfer matrix simulations and direct experimental measurements of imperfect DBRs. The insights of the ERIA method are then further applied on resonant microcavitities, providing a comprehensive link between their structural disorder and subsequent deterioration of their quality (Q) factor.
format Preprint
id arxiv_https___arxiv_org_abs_2401_17944
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Effective Refractive-Index Approximation: A Link between Structural and Optical Disorder of Planar Resonant Optical Structures
Gačević, Žarko
Vukmirović, Nenad
Optics
Materials Science
We provide detailed insights into a link between structural and optical disorder of resonant optical structures, in particular, distributed Bragg reflectors (DBRs) and resonant microcavities. The standard (targeted) DBR structures have periodic square wave like refractive-index profiles, and their optical performance is determined by the refractive index ratio of the two applied materials and the number of DBR periods. It is well known that its structural disorder strongly affects its optical properties, but, despite that, this influence has not been quantitatively addressed in the literature. We propose a precise quantitative definition for a structural disorder of a single DBR unit cell (disorder factor), completing the set of DBR fundamental parameters. Then we expose the basis for the effective refractive index approximation (ERIA), showing that, as long as DBR optical properties are concerned, the influence of increasing structural disorder is virtually identical to the influence of decreasing refractive index ratio, with the latter influence being easily quantified. Making use of the ERIA method, simple analytical formulas, which enable rapid insights into the reflectivity and stop band width of DBRs with different types of transient layers at the heterointerfaces, are derived and the results validated, via both transfer matrix simulations and direct experimental measurements of imperfect DBRs. The insights of the ERIA method are then further applied on resonant microcavitities, providing a comprehensive link between their structural disorder and subsequent deterioration of their quality (Q) factor.
title Effective Refractive-Index Approximation: A Link between Structural and Optical Disorder of Planar Resonant Optical Structures
topic Optics
Materials Science
url https://arxiv.org/abs/2401.17944