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Optics Express

Optics Express

  • Editor: C. Martijn de Sterke
  • Vol. 18, Iss. 25 — Dec. 6, 2010
  • pp: 26632–26634

Chalcogenide photonics: fabrication, devices and applications Introduction

Benjamin J. Eggleton  »View Author Affiliations

Optics Express, Vol. 18, Issue 25, pp. 26632-26634 (2010)

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Introduction to a focus issue of invited articles that review recent progress in chalcogenide photonics.

© 2010 OSA

OCIS Codes
(000.1200) General : Announcements, awards, news, and organizational activities
(160.2750) Materials : Glass and other amorphous materials

ToC Category:

Original Manuscript: November 30, 2010
Published: December 6, 2010

Virtual Issues
Chalcogenide Glass (2010) Optics Express

Benjamin J. Eggleton, "Chalcogenide photonics: fabrication, devices and applications Introduction," Opt. Express 18, 26632-26634 (2010)

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  1. X. Gai, T. Han, A. Prasad, S. Madden, D.-Y. Choi, R. Wang, D. Bulla, and B. Luther-Davies, “Progress in optical waveguides fabricated from chalcogenide glasses,” Opt. Express 18(25), 26635 -26646 (2010). [CrossRef] [PubMed]
  2. J. Troles, Q. Coulombier, G. Canat, M. Duhant, W. Renard, P. Toupin, L. Calvez, G. Renversez, F. Smektala, M. El Amraoui, J. L. Adam, T. Chartier, D. Mechin, and L. Brilland, “Low loss microstructured chalcogenide fibers for large non linear effects at 1995 nm,” Opt. Express 18(25), 26647 -26654 (2010). [CrossRef] [PubMed]
  3. M. El-Amraoui, G. Gadret, J. C. Jules, J. Fatome, C. Fortier, F. Désévédavy, I. Skripatchev, Y. Messaddeq, J. Troles, L. Brilland, W. Gao, T. Suzuki, Y. Ohishi, and F. Smektala, “Microstructured chalcogenide optical fibers from As2S3 glass: towards new IR broadband sources,” Opt. Express 18(25), 26655 -26665 (2010). [CrossRef] [PubMed]
  4. R. J. Weiblen, A. Docherty, J. Hu, and C. R. Menyuk, “Calculation of the expected bandwidth for a mid-infrared supercontinuum source based on As2S3 chalcogenide photonic crystal fibers,” Opt. Express 18(25), 26666 -26674 (2010). [CrossRef] [PubMed]
  5. K. Suzuki and T. Baba, “Nonlinear light propagation in chalcogenide photonic crystal slow light waveguides,” Opt. Express 18(25), 26675 -26685 (2010). [CrossRef] [PubMed]
  6. M. D. Pelusi, F. Luan, D.-Y. Choi, S. J. Madden, D. A. P. Bulla, B. Luther-Davies, and B. J. Eggleton, “Optical phase conjugation by an As2S3 glass planar waveguide for dispersion-free transmission of WDM-DPSK signals over fiber,” Opt. Express 18(25), 26686 -26694 (2010). [CrossRef] [PubMed]
  7. M. W. Lee, C. Grillet, C. Monat, E. Mägi, S. Tomljenovic-Hanic, X. Gai, S. Madden, D.-Y. Choi, D. Bulla, B. Luther-Davies, and B. J. Eggleton, “Photosensitive and thermal nonlinear effects in chalcogenide photonic crystal cavities,” Opt. Express 18(25), 26695 -26703 (2010). [CrossRef] [PubMed]
  8. A. B. Seddon, Z. Tang, D. Furniss, S. Sujecki, and T. M. Benson, “Progress in rare-earth-doped mid-infrared fiber lasers,” Opt. Express 18(25), 26704-26719 (2010). [CrossRef] [PubMed]
  9. G. R. Elliott, G. S. Murugan, J. S. Wilkinson, M. N. Zervas, and D. W. Hewak, “Chalcogenide glass microsphere laser,” Opt. Express 18(25), 26720 -26727 (2010). [CrossRef] [PubMed]
  10. N. Carlie, J. D. Musgraves, B. Zdyrko, I. Luzinov, J. Hu, V. Singh, A. Agarwal, L. C. Kimerling, A. Canciamilla, F. Morichetti, A. Melloni, and K. Richardson, “Integrated chalcogenide waveguide resonators for mid-IR sensing: leveraging material properties to meet fabrication challenges,” Opt. Express 18(25), 26728 -26743 (2010). [CrossRef] [PubMed]
  11. C. Tsay, Y. Zha, and C. B. Arnold, “Solution-processed chalcogenide glass for integrated single-mode mid-infrared waveguides,” Opt. Express 18(25), 26744-26753 (2010). [CrossRef] [PubMed]
  12. Z. Yang, M. K. Fah, K. A. Reynolds, J. D. Sexton, M. R. Riley, M.-L. Anne, B. Bureau, and P. Lucas, “Opto-electrophoretic detection of bio-molecules using conducting chalcogenide glass sensors,” Opt. Express 18(25), 26754 -26759 (2010). [CrossRef] [PubMed]
  13. J. Sanghera, C. Florea, L. Busse, B. Shaw, F. Miklos, and I. Aggarwal, “Reduced Fresnel losses in chalcogenide fibers by using anti-reflective surface structures on fiber end faces,” Opt. Express 18(25), 26760 -26768 (2010). [CrossRef] [PubMed]

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