Analysis of volume holographic long period gratings in photonic nanostructured fibers and waveguides

Research output: Contribution to journalArticle

3 Citations (Scopus)

Abstract

An analysis of volume holographic long period gratings in photonic nanostructured fibers and waveguides is presented. It is found that the unique photonic nanostructure could substantially enhance the tuning capability of the spectral response of the grating, which could result in many practical applications in optical communications and sensors, such as wide tuning range wavelength filters and ultrahigh sensitivity optical sensors.

Original languageEnglish (US)
Pages (from-to)2003-2008
Number of pages6
JournalOptical Engineering
Volume43
Issue number9
DOIs
StatePublished - Sep 1 2004

Fingerprint

Optical sensors
optical measuring instruments
Photonics
Waveguides
Tuning
tuning
gratings
photonics
waveguides
fibers
Fibers
Optical communication
spectral sensitivity
optical communication
Nanostructures
filters
Wavelength
sensitivity
wavelengths

All Science Journal Classification (ASJC) codes

  • Atomic and Molecular Physics, and Optics
  • Engineering(all)

Cite this

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abstract = "An analysis of volume holographic long period gratings in photonic nanostructured fibers and waveguides is presented. It is found that the unique photonic nanostructure could substantially enhance the tuning capability of the spectral response of the grating, which could result in many practical applications in optical communications and sensors, such as wide tuning range wavelength filters and ultrahigh sensitivity optical sensors.",
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Analysis of volume holographic long period gratings in photonic nanostructured fibers and waveguides. / Yang, Yi; Chung, Kun Wook; Yin, Shizhuo; Liu, Zhiwen; Wang, Qing.

In: Optical Engineering, Vol. 43, No. 9, 01.09.2004, p. 2003-2008.

Research output: Contribution to journalArticle

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AU - Chung, Kun Wook

AU - Yin, Shizhuo

AU - Liu, Zhiwen

AU - Wang, Qing

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AB - An analysis of volume holographic long period gratings in photonic nanostructured fibers and waveguides is presented. It is found that the unique photonic nanostructure could substantially enhance the tuning capability of the spectral response of the grating, which could result in many practical applications in optical communications and sensors, such as wide tuning range wavelength filters and ultrahigh sensitivity optical sensors.

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