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Optics Express

Optics Express

  • Editor: C. Martijn de Sterke
  • Vol. 19, Iss. 22 — Oct. 24, 2011
  • pp: 22024–22028

Collective phenomena in photonic, plasmonic and hybrid structures

Svetlana V. Boriskina, Michelle Povinelli, Vasily N. Astratov, Anatoly V. Zayats, and Viktor A. Podolskiy  »View Author Affiliations

Optics Express, Vol. 19, Issue 22, pp. 22024-22028 (2011)

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Preface to a focus issue of invited articles that review recent progress in studying the fundamental physics of collective phenomena associated with coupling of confined photonic, plasmonic, electronic and phononic states and in exploiting these phenomena to engineer novel devices for light generation, optical sensing, and information processing.

© 2011 OSA

OCIS Codes
(000.1200) General : Announcements, awards, news, and organizational activities
(160.1245) Materials : Artificially engineered materials
(230.4555) Optical devices : Coupled resonators
(160.5298) Materials : Photonic crystals
(250.5403) Optoelectronics : Plasmonics
(120.4880) Instrumentation, measurement, and metrology : Optomechanics

ToC Category:

Original Manuscript: October 17, 2011
Published: October 24, 2011

Virtual Issues
Collective Phenomena (2011) Optics Express

Svetlana V. Boriskina, Michelle Povinelli, Vasily N. Astratov, Anatoly V. Zayats, and Viktor A. Podolskiy, "Collective phenomena in photonic, plasmonic and hybrid structures," Opt. Express 19, 22024-22028 (2011)

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  1. M. I. Stockman, “Nanoplasmonics: past, present, and glimpse into future,” Opt. Express 19(22), 22029–22106 (2011).
  2. Y. Li, H. Zhang, N. Zhu, T. Mei, D. H. Zhang, and J. Teng, “Short-range surface plasmon propagation supported by stimulated amplification using electrical injection,” Opt. Express 19(22), 22107–22112 (2011).
  3. R. Blanchard, S. V. Boriskina, P. Genevet, M. A. Kats, J.-P. Tetienne, N. Yu, M. O. Scully, L. Dal Negro, and F. Capasso, “Multi-wavelength mid-infrared plasmonic antennas with single nanoscale focal point,” Opt. Express 19(22), 22113–22124 (2011). [PubMed]
  4. H.-H. Cheng, S.-W. Chen, Y.-Y. Chang, J.-Y. Chu, D.-Z. Lin, Y.-P. Chen, and J.-H. Li, “Effects of the tip shape on the localized field enhancement and far field radiation pattern of the plasmonic inverted pyramidal nanostructures with the tips for surface-enhanced Raman scattering,” Opt. Express 19(22), 22125–22141 (2011).
  5. S. H. Mousavi, A. B. Khanikaev, B. Neuner, D. Y. Fozdar, T. D. Corrigan, P. W. Kolb, H. D. Drew, R. J. Phaneuf, A. Alu, and G. Shvets, “Suppression of long-range collective effects in meta-surfaces formed by plasmonic antenna pairs,” Opt. Express 19(22), 22142–22155 (2011).
  6. L. Langguth and H. Giessen, “Coupling strength of complex plasmonic structures in the multiple dipole approximation,” Opt. Express 19(22), 22156–22166 (2011).
  7. B. Gallinet and O. J. F. Martin, “The relation between near–field and far–field properties of plasmonic Fano resonances,” Opt. Express 19(22), 22167–22175 (2011).
  8. D. M. Natarov, V. O. Byelobrov, R. Sauleau, T. M. Benson, and A. I. Nosich, “Periodicity-induced effects in the scattering and absorption of light by infinite and finite gratings of circular silver nanowires,” Opt. Express 19(22), 22176–22190 (2011).
  9. Q. Quan, I. B. Burgess, S. K. Y. Tang, D. L. Floyd, and M. Loncar, “High-Q, low index-contrast polymeric photonic crystal nanobeam cavities,” Opt. Express 19(22), 22191–22197 (2011).
  10. K. Rivoire, S. Buckley, and J. Vuckovic, “Multiply resonant photonic crystal nanocavities for nonlinear frequency conversion,” Opt. Express 19(22), 22198–22207 (2011).
  11. M. Shinkawa, N. Ishikura, Y. Hama, K. Suzuki, and T. Baba, “Nonlinear enhancement in photonic crystal slow light waveguides fabricated using CMOS-compatible process,” Opt. Express 19(22), 22208–22218 (2011).
  12. S. Tomljenovic-Hanic, A. D. Greentree, B. C. Gibson, T. J. Karle, and S. Prawer, “Nanodiamond induced high-Q resonances in defect-free photonic crystal slabs,” Opt. Express 19(22), 22219–22226 (2011).
  13. T. Lei and A. W. Poon, “Modeling of coupled-resonator optical waveguide (CROW) based refractive index sensors using pixelized spatial detection at a single wavelength,” Opt. Express 19(22), 22227–22241 (2011). [PubMed]
  14. X. Zhang, L. Ren, X. Wu, H. Li, L. Liu, and L. Xu, “Coupled optofluidic ring laser for ultrahigh sensitive sensing,” Opt. Express 19(22), 22242–22247 (2011).
  15. W. Qiu, Z. Wang, and M. Soljačić, “Broadband circulators based on directional coupling of one-way waveguides,” Opt. Express 19(22), 22248–22257 (2011). [PubMed]
  16. T. Mitsui, T. Onodera, Y. Wakayama, T. Hayashi, N. Ikeda, Y. Sugimoto, T. Takamasu, and H. Oikawa, “Influence of micro-joints formed between spheres in coupled-resonator optical waveguide,” Opt. Express 19(22), 22258–22267 (2011).
  17. F. De Angelis, R. Proietti Zaccaria, M. Francardi, C. Liberale, and E. Di Fabrizio, “Multi-scheme approach for efficient surface plasmon polariton generation in metallic conical tips on AFM-based cantilevers,” Opt. Express 19(22), 22268–22279 (2011).
  18. D. Melnikau, D. Savateeva, A. Chuvilin, R. Hillenbrand, and Y. P. Rakovich, “Whispering gallery mode resonators with Jaggregates,” Opt. Express 19(22), 22280–22291 (2011).
  19. M. Chamanzar and A. Adibi, “Hybrid nanoplasmonic-photonic resonators for efficient coupling of light to single plasmonic nanoresonators,” Opt. Express 19(22), 22292–22304 (2011).
  20. S. V. Boriskina and B. M. Reinhard, “Adaptive on-chip control of nano-optical fields with optoplasmonic vortex nanogates,” Opt. Express 19(22), 22305–22315 (2011).
  21. X. Sun, K. Y. Fong, C. Xiong, W. H. P. Pernice, and H. X. Tang, “GHz optomechanical resonators with high mechanical Q factor in air,” Opt. Express 19(22), 22316–22321 (2011).
  22. Z. Wang and P. Rakich, “Response theory of optical forces in two-port photonics systems: a simplified framework for examining conservative and non-conservative forces,” Opt. Express 19(22), 22322–22336 (2011).
  23. J. T. Rubin and L. Deych, “On optical forces in spherical whispering gallery mode resonators,” Opt. Express 19(22), 22337–22349 (2011).
  24. L. Alekseyev, E. Narimanov, and J. Khurgin, “Super-resolution imaging using spatial Fourier transform infrared spectroscopy,” Opt. Express 19(22), 22350–22357 (2011).

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