Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Opto-Mechanical Photonic Crystal Cavities for Sensing Application
View through CrossRef
A new class of hybrid systems that couple optical and mechanical nanoscale devices is under development. According to their interaction concepts, two groups of opto-mechanical systems are summarized as mechanically tunable and radiation pressure-driven optical resonators. On account of their high-quality factors and small mode volumes as well as good on-chip integrability with waveguides/circuits, photonic crystal (PhC) cavities have attracted great attention in sensing applications. Benefitting from the opto-mechanical interaction, a PhC cavity integrated opto-mechanical system provides an attractive platform for ultrasensitive sensors to detect displacement, mass, force, and acceleration. In this review, we introduce basic physical concepts of opto-mechanical PhC system and describe typical experimental systems for sensing applications. Opto-mechanical interaction-based PhC cavities offer unprecedented opportunities to develop lab-on-a-chip devices and witness a promising prospect to further manipulate light propagation in the nanophotonics.
Title: Opto-Mechanical Photonic Crystal Cavities for Sensing Application
Description:
A new class of hybrid systems that couple optical and mechanical nanoscale devices is under development.
According to their interaction concepts, two groups of opto-mechanical systems are summarized as mechanically tunable and radiation pressure-driven optical resonators.
On account of their high-quality factors and small mode volumes as well as good on-chip integrability with waveguides/circuits, photonic crystal (PhC) cavities have attracted great attention in sensing applications.
Benefitting from the opto-mechanical interaction, a PhC cavity integrated opto-mechanical system provides an attractive platform for ultrasensitive sensors to detect displacement, mass, force, and acceleration.
In this review, we introduce basic physical concepts of opto-mechanical PhC system and describe typical experimental systems for sensing applications.
Opto-mechanical interaction-based PhC cavities offer unprecedented opportunities to develop lab-on-a-chip devices and witness a promising prospect to further manipulate light propagation in the nanophotonics.
Related Results
Two-dimensional function photonic crystal
Two-dimensional function photonic crystal
Photonic crystal is a kind of periodic optical nanostructure consisting of two or more materials with different dielectric constants, which has attracted great deal of attention be...
Lasing up to T = 339 K in Subwavelength Nanowire-Induced Photonic Crystal Nanocavities
Lasing up to T = 339 K in Subwavelength Nanowire-Induced Photonic Crystal Nanocavities
We report on lasing operation up to 339K in nanocavities constituted of subwavelength ZnO nanowires integrated in SiN photonic crystals. With thresholds as low as 4MW.cm-2, the inv...
Tunable filtering properties of the ployphyly photonic crystal with double local states
Tunable filtering properties of the ployphyly photonic crystal with double local states
The mechanism of generating double defect modes in a photonic crystal with double local states is analyzed based on the tight-binding method. The optical transmission characteristi...
Embeded photonic crystal at the interface of p-GaN and Ag reflector to improve light extraction of GaN-based flip-chip light-emitting diode
Embeded photonic crystal at the interface of p-GaN and Ag reflector to improve light extraction of GaN-based flip-chip light-emitting diode
In this experiment, a flip-chip light-emitting diode with photonic crystal was fabricated at the interface of p-GaN and Ag reflector via nanospheres lithography technique. In this ...
Comparison and analysis of the basic characteristics of photonic crystal fiber with three typical structures
Comparison and analysis of the basic characteristics of photonic crystal fiber with three typical structures
The multi-pole method is used to analyse and compare the dispersion coefficient, dispersion slope, nonlinear coefficient, confinement loss of photonic crystal fibers of hexagonal, ...
Analysis of photonic crystal transmission properties by the precise integration time domain
Analysis of photonic crystal transmission properties by the precise integration time domain
Photonic crystals are materials patterned with a periodicity in the dielectric constant, which can create a range of forbidden frequencies called as a photonic band gap. The photon...
Photonic time crystals
Photonic time crystals
AbstractWhen space (time) translation symmetry is spontaneously broken, the space crystal (time crystal) forms; when permittivity and permeability periodically vary with space (tim...
A flexible and stretchable photonic crystal sensor for biosensing and tactile sensing
A flexible and stretchable photonic crystal sensor for biosensing and tactile sensing
Abstract
A flexible and stretchable photonic crystal that can be used for biosensing and tactile sensing is designed and demonstrated. The nanograting of a flexible and str...