Plasmonic Focusing in Nanostructures

Plasmonics

Volumn 9, Issue 4, 2014, Pages 879-886

  Li, Jie ^a   Yang, Chaojie ^a   Li, Jiaming ^a   Li, Ziwei ^a   Zu, Shuai ^a   Song, Siyu ^a   Zhao, Huabo ^a   Lin, Feng ^a   Zhu, Xing ^a,b  

^a PEKING UNIVERSITY   (China)

^b NATIONAL CENTER FOR NANOSCIENCE AND TECHNOLOGY   (China)

Author keywords

Plasmonic nanocorral; Scanning near field optical microscopy; Spiral plasmonic lens; Surface plasmon

Indexed keywords

EID: 84895193649     PISSN: 15571955     EISSN: 15571963     Source Type: Journal    
DOI: 10.1007/s11468-014-9692-5     Document Type: Review

References (46)

1. Ebbesen TW, Lezec HJ, Ghaemi HF, Thio T, Wolff PA (1998) Extraordinary optical transmission through sub-wavelength hole arrays. Nature 391: 667-669.
2. Barnes WL, Dereux A, Ebbesen TW (2003) Surface plasmon subwavelength optics. Nature 424: 824-830.
3. Verhagen E, Polman A, Kuipers L (2008) Nanofocusing in laterally tapered plasmonic waveguides. Opt Express 16: 45-57.
4. Volkov VS, Bozhevolnyi SI, Rodrigo SG, Martin-Moreno L, Garcia-Vidal FJ, Devaux E, Ebbesen TW (2009) Nanofocusing with channel plasmon polaritons. Nano Lett 9: 1278-1282.
5. Yin LL, Vlasko-Vlasov VK, Pearson J, Hiller JM, Hua J, Welp U, Brown DE, Kimball CW (2005) Subwavelength focusing and guiding of surface plasmons. Nano Lett 5: 1399-1402.
6. Evlyukhin AB, Bozhevolnyi SI, Stepanov AL, Kiyan R, Reinhardt C, Passinger S, Chichkov BN (2007) Focusing and directing of surface plasmon polaritons by curved chains of nanoparticles. Opt Express 15: 16667-16680.
7. Kim H, Min SW, Lee B (2008) Geometrical optics analysis of the structural imperfection of retroreflection corner cubes with a nonlinear conjugate gradient method. Appl Optics 47: 6453-6469.
8. Zia R, Brongersma ML (2007) Surface plasmon polariton analogue to Young's double-slit experiment. Nat Nanotechnol 2: 426-429.
9. Kim H, Lee B (2008) Diffractive slit patterns for focusing surface plasmon polaritons. Opt Express 16: 8969-8980.
10. Zhan QW (2006) Evanescent bessel beam generation via surface plasmon resonance excitation by a radially polarized beam. Opt Lett 31: 1726-1728.
11. Yang SY, Chen WB, Nelson RL, Zhan QW (2009) Miniature circular polarization analyzer with spiral plasmonic lens. Opt Lett 34: 3047-3049.
12. Fang YR, Li ZP, Huang YZ, Zhang SP, Nordlander P, Halas NJ, Xu HX (2010) Branched silver nanowires as controllable plasmon routers. Nano Lett 10: 1950-1954.
13. Fang ZY, Huang S, Lin F, Zhu X (2009) Color-tuning and switching optical transport through CdS hybrid plasmonic waveguide. Opt Express 17: 20327-20332.
14. Fang ZY, Lu YW, Fan LR, Lin CF, Zhu X (2010) Surface plasmon polariton enhancement in silver nanowire-nanoantenna structure. Plasmonics 5: 57-62.
15. Fang ZY, Qi H, Wang C, Zhu X (2010) Hybrid plasmonic waveguide based on tapered dielectric nanoribbon: excitation and focusing. Plasmonics 5: 207-212.
16. Fang ZY, Zhang XJ, Liu D, Zhu X (2008) Excitation of dielectric-loaded surface plasmon polariton observed by using near-field optical microscopy. Appl Phys Lett 93: 073306.
17. Oulton RF, Sorger VJ, Zentgraf T, Ma RM, Gladden C, Dai L, Bartal G, Zhang X (2009) Plasmon lasers at deep subwavelength scale. Nature 461: 629-632.
18. Sanders AW, Routenberg DA, Wiley BJ, Xia YN, Dufresne ER, Reed MA (2006) Observation of plasmon propagation, redirection, and fan-out in silver nanowires. Nano Lett 6: 1822-1826.
19. Fan JA et al (2010) Self-assembled plasmonic nanoparticle clusters. Science 328: 1135-1138.
20. Fang ZY, Cai JY, Yan ZB, Nordlander P, Halas NJ, Zhu X (2011) Removing a wedge from a metallic nanodisk reveals a fano resonance. Nano Lett 11: 4475-4479.
21. Prodan E, Radloff C, Halas NJ, Nordlander P (2003) A hybridization model for the plasmon response of complex nanostructures. Science 302: 419-422.
22. Fang ZY, Liu Z, Wang YM, Ajayan PM, Nordlander P, Halas NJ (2012) Graphene-antenna sandwich photodetector. Nano Lett 12: 3808-3813.
23. Fang ZY, Wang YM, Liu Z, Schlather A, Ajayan PM, Koppens FHL, Nordlander P, Halas NJ (2012) Plasmon-induced doping of graphene. ACS Nano 6: 10222-10228.
24. Fang ZY et al (2013) Gated tunability and hybridization of localized plasmons in nanostructured graphene. ACS Nano 7: 2388-2395.
25. Lee B, Kim S, Kim H, Lim Y (2010) The use of plasmonics in light beaming and focusing. Prog Quant Electron 34: 47-87.
26. Zhang X, Liu ZW (2008) Superlenses to overcome the diffraction limit. Nat Mater 7: 435-441.
27. Kawata S, Inouye Y, Verma P (2009) Plasmonics for near-field nano-imaging and superlensing. Nat Photonics 3: 388-394.
28. Wei H, Hao F, Huang YZ, Wang WZ, Nordlander P, Xu HX (2008) Polarization dependence of surface-enhanced Raman scattering in gold nanoparticle-nanowire systems. Nano Lett 8: 2497-2502.
29. Muhlschlegel P, Eisler HJ, Martin OJF, Hecht B, Pohl DW (2005) Resonant optical antennas. Science 308: 1607-1609.
30. Fang ZY, Fan LR, Lin CF, Zhang D, Meixner AJ, Zhu X (2011) Plasmonic coupling of bow tie antennas with Ag nanowire. Nano Lett 11: 1676-1680.
31. Pendry JB (2000) Negative refraction makes a perfect lens. Phys Rev Lett 85: 3966-3969.
32. Bouhelier A, Bachelot R, Lerondel G, Kostcheev S, Royer P, Wiederrecht GP (2005) Surface plasmon characteristics of tunable photoluminescence in single gold nanorods. Phys Rev Lett 95: 267405.
33. Fang N, Lee H, Sun C, Zhang X (2005) Sub-diffraction-limited optical imaging with a silver superlens. Science 308: 534-537.
34. Fang ZY, Lin CF, Ma RM, Huang S, Zhu X (2010) Planar plasmonic focusing and optical transport using US nanoribbon. ACS Nano 4: 75-82.
35. Chen WB, Abeysinghe DC, Nelson RL, Zhan QW (2009) Plasmonic lens made of multiple concentric metallic rings under radially polarized illumination. Nano Lett 9: 4320-4325.
36. Nordlander P (2009) The ring: a leitmotif in plasmonics. ACS Nano 3: 488-492.
37. Lerman GM, Yanai A, Levy U (2009) Demonstration of nanofocusing by the use of plasmonic lens illuminated with radially polarized light. Nano Lett 9: 2139-2143.
38. Song WT, Fang ZY, Huang S, Lin F, Zhu X (2010) Near-field nanofocusing through a combination of plasmonic Bragg reflector and converging lens. Opt Express 18: 14762-14767.
39. Fang ZY, Peng QA, Song WT, Hao FH, Wang J, Nordlander P, Zhu X (2011) Plasmonic focusing in symmetry broken nanocorrals. Nano Lett 11: 893-897.
40. Lindquist NC, Nagpal P, Lesuffleur A, Norris DJ, Oh SH (2010) Three-dimensional plasmonic nanofocusing. Nano Lett 10: 1369-1373.
41. Zhou J, Jin L, Zou WB (2012) Phase modulation of output light by planar metallic-dielectric array with electro-optical material. Opt Commun 285: 46-49.
42. Min CJ, Wang P, Jiao XJ, Deng Y, Ming H (2007) Beam manipulating by metallic nano-optic lens containing nonlinear media. Opt Express 15: 9541-9546.
43. Cetin AE, Guven K, Mustecaplioglu OE (2010) Active control of focal length and beam deflection in a metallic nanoslit array lens with multiple sources. Opt Lett 35: 1980-1982.
44. Cai WS, White JS, Brongersma ML (2009) Compact, high-speed and power-efficient electrooptic plasmonic modulators. Nano Lett 9: 4403-4411.
45. Chen WB, Abeysinghe DC, Nelson RL, Zhan QW (2010) Experimental confirmation of miniature spiral plasmonic lens as a circular polarization analyzer. Nano Lett 10: 2075-2079.
46. Chen WB, Nelson RL, Zhan QW (2012) Efficient miniature circular polarization analyzer design using hybrid spiral plasmonic lens. Opt Lett 37: 1442-1444.