Scholars@Duke publication: Multimodal multiplex spectroscopy using photonic crystals

Multimodal multiplex spectroscopy using photonic crystals

Publication , Journal Article

Xu, Z; Wang, Z; Sullivan, ME; Brady, DJ; Foulger, SH; Adibi, A

Published in: Opt. Express (USA)

Spatio-spectral transmission patterns induced on low coherence fields by disordered photonic crystals can be used to construct optical spectrometers. Experimental results suggest that 1 to 10 nm resolution multimodal spectrometers for diffuse source analysis may be constructed using a photonic crystal mounted on a focal plane array. The relative independence of spatial and spectral modal response in photonic crystals enables high efficiency spectral analysis of diffuse sources

Duke Scholars

Author David J. Brady Electrical and Computer Engineering

Published In

Opt. Express (USA)

Volume

Issue

Related Subject Headings

Optics
5102 Atomic, molecular and optical physics
4009 Electronics, sensors and digital hardware
4006 Communications engineering
1005 Communications Technologies
0906 Electrical and Electronic Engineering
0205 Optical Physics

Citation

APA

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ICMJE

MLA

NLM

Xu, Z., Wang, Z., Sullivan, M. E., Brady, D. J., Foulger, S. H., & Adibi, A. (n.d.). Multimodal multiplex spectroscopy using photonic crystals. Opt. Express (USA), 11(18).

Xu, Zhaochun, Zhanglei Wang, M. E. Sullivan, D. J. Brady, S. H. Foulger, and A. Adibi. “Multimodal multiplex spectroscopy using photonic crystals.” Opt. Express (USA) 11, no. 18 (n.d.).

Xu Z, Wang Z, Sullivan ME, Brady DJ, Foulger SH, Adibi A. Multimodal multiplex spectroscopy using photonic crystals. Opt Express (USA). 11(18).