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Influence of surface plasmon wave interference on near-field imaging on metal nanostructures with apertured probe

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
We numerically studied artifact issues on near-field imaging of field intensity on metal nanostruc-tures (isolated ridges and slits in a continuous film) with an apertured probe. It is shown for the latter case that the interaction between neighboring slits via propagating surface plasmon waves (e.g., surface plasmon wave interferences) makes the probe-imaged field intensity highly condi-tional in reflection of the unperturbed field. As surface plasmon behaviors and probe imaging processes are polarization-sensitive and the field components are correlated, a model analysis of the partial field components elucidates their relations, which can help to derive the unperturbed near-field image from the probed one.
Słowa kluczowe
Czasopismo
Rocznik
Strony
615--626
Opis fizyczny
Bibliogr. 20 poz., wykr.
Twórcy
autor
  • Department of Physics, Xiamen University, Xiamen, Fujian 361005, China
autor
  • Department of Physics, Xiamen University, Xiamen, Fujian 361005, China
Bibliografia
  • [1] KAWATA S., OHTSU M., IRIE M., [Eds.], Nano-Optics, Springer-Verlag, Berlin Heidelberg, 2002.
  • [2] HAYAZAWA N., INOUYE Y., SEKKAT Z., KAWATA S., Near-field Raman imaging of organic molecules by an apertureless metallic probe scanning optical microscope, Journal of Chemical Physics 117(3), 2002, pp. 1296–1301.
  • [3] ZHEYU FANG, CHENFANG LIN, RENMIN MA, SHAN HUANG, XING ZHU, Planar plasmonic focusing and optical transport using CdS nanoribbon, ACS Nano 4(1), 2010, pp. 75–82.
  • [4] BOZHEVOLNYI S.I., VOHNSEN B., SMOLYANINOV I.I., ZAYATS A.V., Direct observation of surface polariton localization caused by surface roughness, Optics Communications 117(5–6), 1995, pp. 417–423.
  • [5] KRENN J.R., WOLF R., LEITNER A., AUSSENEGG F.R., Near-field optical imaging the surface plasmon fields of lithographically designed nanostructures, Optics Communications 137(1–3), 1997, pp. 46–50.
  • [6] WEEBER J.-C., KRENN J.R., DEREUX A., LAMPRECHT B., LACROUTE Y., GOUDONNET J.P., Near-field observation of surface plasmon polariton propagation on thin metal stripes, Physical Review B 64(4), 2001, article 045411.
  • [7] DEVAUX E., EBBESEN T.W., WEEBER J.-C., DEREUX A., Launching and decoupling surface plasmons via micro-gratings, Applied Physics Letters 83(24), 2003, pp. 4936–4938.
  • [8] WEEBER J.-C., LACROUTE Y., DEREUX A., Optical near-field distributions of surface plasmon waveguide modes, Physical Review B 68(11), 2003, article 115401.
  • [9] LIU Z., STEELE J.M., SRITURAVANICH W., PIKUS Y., SUN C., ZHANG X., Focusing surface plasmons with a plasmonic lens, Nano Letters 5(9), 2005, pp. 1726–1729.
  • [10] SALAS-MONTIEL R., APUZZO A., DELACOUR C., SEDAGHAT Z., BRUYANT A., GROSSE P., CHELNOKOV A., LERONDEL G., BLAIZE S., Quantitative analysis and near-field observation of strong coupling between plasmonic nanogap and silicon waveguides, Applied Physics Letters 100(23), 2012, article 231109.
  • [11] ZHOU L., GAN Q., BARTOLI F.J., DIEROLF V., Direct near-field optical imaging of UV bowtie nanoantennas, Optics Express 17(22), 2009, pp. 20301–20306.
  • [12] KIM H.W., LEE K.G., KIM D.S., AHN K.J., Dual mode near-field scanning optical microscopy for near-field imaging of surface plasmon polariton, Optics Communications 282(12), 2009, pp. 2442–2445.
  • [13] RANG M., JONES A.C., ZHOU F., LI Z.-Y., WILEY B.J., XIA Y., RASCHKE M.B., Optical near-field mapping of plasmonic nanoprisms, Nano Letters 8(10), 2008, pp. 3357–3363.
  • [14] KUBO A., ONDA K., PETEK H., SUN Z., JUNG Y.S., KIM H.K., Femtosecond imaging of surface plasmon dynamics in a nanostructured silver film, Nano Letters 5(6), 2005, pp. 1123–1127.
  • [15] FUJIKAWA Y., SAKURAI T., TROMP R.M., Surface plasmon microscopy using an energy-filtered low energy electron microscope, Physical Review Letters 100(12), 2008, article 126803.
  • [16] DOUILLARD L., CHARRA F., KORCZAK Z., BACHELOT R., KOSTCHEEV S., LERONDEL G., ADAM P.-M., ROYER P., Short range plasmon resonators probed by photoemission electron microscopy, Nano Letters 8(3), 2008, pp. 935–940.626
  • [17]HECHT B., BIELEFELDT H., INOUYE Y., POHL D.W., NOVOTNY L., Facts and artifacts in near-field optical microscopy, Journal of Applied Physics 81(6), 1997, pp. 2492–2498.
  • [18]HATANO H., KAWATA S., Applicability of deconvolution and nonlinear optimization for reconstructing optical images from near-field optical microscope images, Journal of Microscopy 194(2–3), 1999, pp. 230–234.
  • [19]SUN Z., ZENG D., Coupling of surface plasmon waves in metal/dielectric gap waveguides and single interface waveguides, Journal of the Optical Society of America B 24(11), 2007, pp. 2883–2887.
  • [20]SUN Z., ZUO X., Tuning resonant optical transmission of metallic nanoslit arrays with embedded microcavities, Optics Letters 34(9), 2009, pp. 1411–1413.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d53e27ef-c3a6-4319-a3cf-f318e2135417
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