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Slow light enhanced gas sensing in photonic crystals
Christian Kraeh
, J. L. Martinez-Hurtado
, Alexandru Popescu
, Harry Hedler
,
Jonathan J. Finley
Chair of Semiconductor Quantum Nanosystems
Walter Schottky Institute
Siemens AG
Walter Schottky Institut
Research output
:
Contribution to journal
›
Article
›
peer-review
35
Scopus citations
Overview
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Keyphrases
Path Length
100%
Spectrometer
100%
Photonic Crystal
100%
Slow Light
100%
Enhanced Gas Sensing
100%
Microtube
100%
Miniaturization
50%
Highly Selective
50%
On chip
50%
Light Absorption
50%
Strong Interaction
50%
Small Form Factor
50%
Enhanced Absorption
50%
Void Space
50%
Infrared Spectroscopy
50%
Mid-infrared
50%
Gas Sensor
50%
Gas Species
50%
Gas Concentration
50%
High-throughput Detection
50%
Unconventional Gas
50%
Gas Sensing
50%
Gas Molecules
50%
Gasses
50%
On-chip Applications
50%
Sensing Architecture
50%
Gas Absorption
50%
Gas Sensitivity
50%
Slow Light Effect
50%
Photonic Crystal Structure
50%
Engineering
Photonics
100%
Pathlength
66%
Microtube
66%
Gas Specie
33%
Strong Interaction
33%
Gas Sensor
33%
Gas Molecule
33%
Sensitive Detection
33%
Starting Point
33%
Crystal Structure
33%
Infrared Spectroscopy
33%
Physics
Spectrometer
100%
Photonic Crystal
100%
Form Factor
100%
Light Effect
50%
Infrared Spectroscopy
50%
Photonic Crystal Structures
50%
Material Science
Photonic Crystal
100%
Silicon
33%
Gas Sensor
33%
Sensitive Detection
33%
Crystal Structure
33%
Chemical Engineering
Sensitive Detection
100%
Gas Absorption
100%