Microwave surface-plasmon-like modes on thin metamaterials
MJ Lockyear, AP Hibbins, JR Sambles - Physical review letters, 2009 - APS
MJ Lockyear, AP Hibbins, JR Sambles
Physical review letters, 2009•APSIt has recently been shown that the structured surface of a perfect conductor can support
surface-plasmon-like modes [Pendry, Science 305, 847 (2004) SCIEAS 0036-8075
10.1126/science. 1098999]. Such structures have a thickness of at least the order of the
wavelength. Here, using microwave wavelength radiation incident beyond the critical angle
of a wax prism, we quantify the surface-plasmon-like dispersion for a metamaterial surface
with a thickness very much smaller than the incident wavelength.
surface-plasmon-like modes [Pendry, Science 305, 847 (2004) SCIEAS 0036-8075
10.1126/science. 1098999]. Such structures have a thickness of at least the order of the
wavelength. Here, using microwave wavelength radiation incident beyond the critical angle
of a wax prism, we quantify the surface-plasmon-like dispersion for a metamaterial surface
with a thickness very much smaller than the incident wavelength.
It has recently been shown that the structured surface of a perfect conductor can support surface-plasmon-like modes [Pendry , Science 305, 847 (2004)SCIEAS0036-807510.1126/science.1098999]. Such structures have a thickness of at least the order of the wavelength. Here, using microwave wavelength radiation incident beyond the critical angle of a wax prism, we quantify the surface-plasmon-like dispersion for a metamaterial surface with a thickness very much smaller than the incident wavelength.
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