Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Mid-Infrared Waveguides: A Perspective
View through CrossRef
Significant advancements in waveguide technology in the mid-infrared (MIR) regime during recent decades have assisted in establishing MIR spectroscopic and sensing technologies as a routine tool among nondestructive analytical methods. In this review, the evolution of MIR waveguides along with state-of-the-art technologies facilitating next-generation MIR chem/bio sensors will be discussed introducing a classification scheme defining three “generations” of MIR waveguides: (1) conventional internal reflection elements as “first generation” waveguides; (2) MIR-transparent optical fibers as “second generation” waveguides; and most recently introduced(3) thin-film structures as “third generation” waveguides. Selected application examples for these each waveguide category along with future trends will highlight utility and perspectives for waveguide-based MIR spectroscopy and sensing systems.
Title: Mid-Infrared Waveguides: A Perspective
Description:
Significant advancements in waveguide technology in the mid-infrared (MIR) regime during recent decades have assisted in establishing MIR spectroscopic and sensing technologies as a routine tool among nondestructive analytical methods.
In this review, the evolution of MIR waveguides along with state-of-the-art technologies facilitating next-generation MIR chem/bio sensors will be discussed introducing a classification scheme defining three “generations” of MIR waveguides: (1) conventional internal reflection elements as “first generation” waveguides; (2) MIR-transparent optical fibers as “second generation” waveguides; and most recently introduced(3) thin-film structures as “third generation” waveguides.
Selected application examples for these each waveguide category along with future trends will highlight utility and perspectives for waveguide-based MIR spectroscopy and sensing systems.
Related Results
Improvement of the technology of making multi-mode polysiloxane waveguides
Improvement of the technology of making multi-mode polysiloxane waveguides
In this paper, we present an improved technology of making multi-mode polysiloxane waveguides. Through this kind of improvement, we can solve these problems such as reducing the nu...
Mid‐Infrared Spectroscopy of the Condensed Phase
Mid‐Infrared Spectroscopy of the Condensed Phase
Abstract
This cle introduces some of the main issues that affect the mid‐infrared study of condensed phase samples. It serves as a brief introduction to many of the artic...
Inequalities between $\mid A\mid + \mid B\mid $ and $\mid A^{*} \mid + \mid B^{*} \mid$
Inequalities between $\mid A\mid + \mid B\mid $ and $\mid A^{*} \mid + \mid B^{*} \mid$
Let $A$ and $B$ be complex square matrices. Some inequalities between $\mid A \mid + \mid B \mid$ and $\mid A^{*} \mid + \mid B^{*} \mid$ are established. Applications of these ine...
An Infrared Sequence Image Generating Method for Target Detection and Tracking
An Infrared Sequence Image Generating Method for Target Detection and Tracking
Training infrared target detection and tracking models based on deep learning requires a large number of infrared sequence images. The cost of acquisition real infrared target sequ...
Wedge Surface Plasmon Polariton Waveguides Based on Wet-Bulk Micromachining
Wedge Surface Plasmon Polariton Waveguides Based on Wet-Bulk Micromachining
In this paper, we propose and investigate the modal characteristics of wedge surface plasmon polariton (SPP) waveguides for guiding surface plasmon waves. The wedge SPP waveguides ...
Conservation of orbital angular momentum and polarization through biological waveguides
Conservation of orbital angular momentum and polarization through biological waveguides
Abstract
A major roadblock to the development of photonic sensors is the scattering associated with many biological systems. We show the conservation of photonic states thr...
Conservation of orbital angular momentum and polarization through biological waveguides
Conservation of orbital angular momentum and polarization through biological waveguides
AbstractA major roadblock to the development of photonic sensors is the scattering associated with many biological systems. We show the conservation of photonic states through opti...
Design of SiN waveguides integrated with graphene oxide films for nonlinear optics
Design of SiN waveguides integrated with graphene oxide films for nonlinear optics
Abstract
We theoretically investigate and optimize four-wave mixing (FWM) in silicon nitride (SiN) waveguides integrated with two-dimensional (2D) layered graphene oxide (G...