Physics – Condensed Matter – Materials Science
Scientific paper
2004-03-10
Phys.Rev.Letters 94, 057401 (2005)
Physics
Condensed Matter
Materials Science
Submitted to Phys.Rev.Letters, 14 pages, 4 figures
Scientific paper
10.1103/PhysRevLett.94.057401
The resolution of far-field optical microscopes, which rely on propagating optical modes, is widely believed to be limited because of diffraction to a value on the order of a half-wavelength $\lambda /2$ of the light used. Although immersion microscopes have slightly improved resolution on the order of $\lambda /2n$, the increased resolution is limited by the small range of refractive indices n of available transparent materials. Here we demonstrate a new far-field optical microscope design, which is capable of reaching nanometer-scale resolution. This microscope uses the fact that the effective refractive index $n_{eff}$ of a planar dielectric lens or mirror placed on a metal surface may reach extremely large values, up to $10^3$, as seen by propagating surface optical modes (plasmons). In our design a magnified planar image produced originally by surface plasmons in the metal plane is viewed by a regular microscope. Thus, the theoretical diffraction limit on resolution is pushed down to nanometer-scale $\lambda /2n_{eff}$ values. Used in reverse, such a microscope may become an optical lithography tool with nanometer-scale spatial resolution.
Davis Christopher C.
Elliott Jill
Smolyaninov Igor I.
Zayats Anatoly V.
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