Multiple responses of TPP-assisted near-perfect absorption in metal/Fibonacci quasiperiodic photonic crystal

Optics Express

Volumn 19, Issue 10, 2011, Pages 9759-9769

  Gong, Yongkang ^a   Liu, Xueming ^a   Wang, Leiran ^a   Lu, Hua ^a   Wang, Guoxi ^a  

^a XI AN INSTITUTE OF OPTICS AND PRECISION MECHANICS   (China)

Author keywords

[No Author keywords available]

Indexed keywords

MULTILAYERS; PHOTONIC CRYSTALS;

ABSORPTION PEAKS; ABSORPTION PROPERTY; DIELECTRIC LAYER; FIBONACCI MULTILAYERS; INCIDENT WAVES; METALLIC LAYERS; MULTIPLE RESPONSE; PLASMON-POLARITONS; QUASI-PERIODIC PHOTONIC CRYSTALS; STOP-BANDS; STOPBAND; THIN METALLIC LAYER;

ABSORPTION;

EID: 79955798983     PISSN: None     EISSN: 10944087     Source Type: Journal    
DOI: 10.1364/OE.19.009759     Document Type: Article

References (33)

1. S. Pillai, K. R. Catchpole, T. Trupke, and M. A. Green, "Surface plasmon enhanced silicon solar cells," J. Appl. Phys. 101(9), 093105 (2007).
2. A. D. Parsons, and D. J. Pedder, "Thin-□lm infrared absorber structures for advanced thermal detectors," J. Vac. Sci. Technol. A 6(3), 1686-1689 (1988).
3. S. Longhi, "Pi-symmetric laser absorber," Phys. Rev. A 82(3), 031801 (2010).
4. N. I. Landy, S. Sajuyigbe, J. J. Mock, D. R. Smith, and W. J. Padilla, "Perfect metamaterial absorber," Phys. Rev. Lett. 100(20), 207402 (2008).
5. C. G. Hu, X. Li, Q. Feng, X. N. Chen, and X. G. Luo, "Investigation on the role of the dielectric loss in metamaterial absorber," Opt. Express 18(7), 6598-6603 (2010).
6. J. M. Hao, J. Wang, X. L. Liu, W. J. Padilla, L. Zhou, and M. Qiu, "High performance optical absorber based on a plasmonic metamaterial," Appl. Phys. Lett. 96(25), 251104 (2010).
7. J. R. Tischler, M. S. Bradley, and V. Bulović, "Critically coupled resonators in vertical geometry using a planar mirror and a 5 nm thick absorbing film," Opt. Lett. 31(13), 2045-2047 (2006). (Pubitemid 44542769)
8. C. G. Hu, Z. Y. Zhao, X. N. Chen, and X. G. Luo, "Realizing near-perfect absorption at visible frequencies," Opt. Express 17(13), 11039-11044 (2009).
9. T. V. Teperik, F. J. Garcia, A. G. Borisov, M. Abdelsalam, P. N. Bartlett, Y. Sugawara, and J. J. Baumberg, "Omnidirectional absorption in nanostructured metal surfaces," Nature 2, 299-301 (2008).
10. F. Yu, H. Wang, and S. L. Zou, "Effcient and tunable light trapping thin films," J. Phys. Chem. C 114(5), 2066-2069 (2010).
11. N. Liu, M. Mesch, T. Weiss, M. Hentschel, and H. Giessen, "Infrared perfect absorber and its application as plasmonic sensor," Nano Lett. 10(7), 2342-2348 (2010).
12. X. L. Liu, T. Starr, A. F. Starr, and W. J. Padilla, "Infrared spatial and frequency selective metamaterial with near-unity absorbance," Phys. Rev. Lett. 104(20), 207403 (2010).
13. H. Tao, C. M. Bingham, A. C. Strikwerda, D. Pilon, D. Shrekenhamer, N. I. Landy, K. Fan, X. Zhang, W. J. Padilla, and R. D. Averitt, "Highly flexible wide angle of incidence terahertz metamaterial absorber: design, fabricated and characterization," Phys. Rev. B 78(24), 241103 (2008).
14. Q. Y. Wen, H. W. Zhang, Y. S. Xie, Q. H. Yang, and Y. L. Liu, "Dual band terahertz metamaterial absorber: Design, fabrication, and characterization," Appl. Phys. Lett. 95(24), 241111 (2009).
15. M. Kaliteevski, I. Iorsh, S. Brand, R. A. Abram, J. M. Chamberlain, A. V. Kavokin, and I. A. Shelykh, "Tamm plasmon-polaritons: possible electromagnetic states at the interface of a metal and a dielectric Bragg mirror," Phys. Rev. B 76(16), 165415 (2007).
16. M. E. Sasin, R. P. Seisyan, M. Kalitteevski, S. Brand, R. A. Abram, J. M. Chamberlain, A. Y. Egorov, A. P. Vasilev, V. S. Mikhrin, and A. V. Kavokin, "Tamm plasmon polaritons: slow and spatially compact light," Appl. Phys. Lett. 92(25), 251112 (2008).
17. X. Kang, W. Tan, Z. Wang, and H. Chen, "Optic Tamm states: the Bloch-wave-expansion method," Phys. Rev. A 79(4), 043832 (2009).
18. S. Brand, M. Kaliteevski, and R. A. Abram, "Optical Tamm states above the bulk plasma frequency at a Bragg stack/metal interface," Phys. Rev. B 79(8), 085416 (2009).
19. M. Kaliteevski, S. Brand, R. A. Abram, I. Iorsh, A. V. Kavokin, and I. A. Shelykh, "Hybrid states of Tamm plasmons and exciton polaritons," Appl. Phys. Lett. 95(25), 251108 (2009).
20. S. Brand, R. A. Abram, and M. A. Kaliteevski, "Bragg rejector enhanced attenuated total rejectance," J. Appl. Phys. 106(11), 113109 (2009).
21. G. Q. Du, H. T. Jiang, Z. S. Wang, Y. P. Yang, Z. L. Wang, H. Q. Lin, and H. Chen, "Heterostructure-based optical absorbers," J. Opt. Soc. Am. B 27(9), 1757-1762 (2010).
22. M. Kohmoto, B. Sutherland, and K. Iguchi, "Localization of optics: quasiperiodic media," Phys. Rev. Lett. 58(23), 2436-2438 (1987).
23. W. Gellermann, M. Kohmoto, B. Sutherland, and P. C. Taylor, "Localization of light waves in Fibonacci dielectric multilayers," Phys. Rev. Lett. 72(5), 633-636 (1994). (Pubitemid 124009105)
24. D. Lusk, I. Abdulhalim, and F. Placido, "Omnidirectional reflection from Fibonacci quasi-periodic one-dimensional photonic crystal," Opt. Commun. 198(4-6), 273-279 (2001). (Pubitemid 33074606)
25. X. Q. Huang, S. S. Jiang, R. W. Peng, and A. Hu, "Perfect transmission and self-similar optical transmission spectra in symmetric Fibonacci-class multilayers," Phys. Rev. E Stat. Nonlin. Soft Matter Phys. 63(24), 245104 (2001).
26. R. W. Peng, X. Q. Huang, F. Qiu, M. Wang, A. Hu, S. S. Jiang, and M. Mazzer, "Symmetry-induced perfect transmission of light waves in quasiperiodic dielectric multilayers," Appl. Phys. Lett. 80(17), 3063-3065 (2002).
27. Y. K. Gong, X. M. Liu, and L. R. Wang, "High-channel-count plasmonic filter with the metal-insulator-metal Fibonacci-sequence gratings," Opt. Lett. 35(3), 285-287 (2010).
28. R. Riklund, and M. Severin, "Optical properties of perfect and non perfect quasiperiodic multilayers a comparison with periodic and disordered multilayers," J. Phys. C Solid State Phys. 21(17), 3217-3228 (1988).
29. D. T. Nguyen, R. A. Norwood, and N. Peyghambarian, "Multiple spectral window mirrors based on Fibonacci chains of dielectric layers," Opt. Commun. 283(21), 4199-4202 (2010).
30. M. Born, and E. Wolf, Principles of Optics, fourth ed., Pergamon, Oxford, 1970, 58-68.
31. A. Kavokin, I. Shelykh, and G. Malpuech, "Optical Tamm states for the fabrication of polariton lasers," Appl. Phys. Lett. 87(26), 261105 (2005).
32. X. Wang, X. Hu, Y. Li, W. Jia, C. Xu, X. Liu, and J. Zi, "Enlargement of omnidirectional total-rejection frequency range in one dimensional photonic crystals by using photonic heterostructures," Appl. Phys. Lett. 80(23), 4291-4293 (2002).
33. J. Nakayama, ""Periodic Fourier transform and its application to wave scattering from a finite periodic surface: Two-dimensional case," IEICE Trans. Electron," E 88-C, 1025-1032 (2005). (Pubitemid 41227809)