We demonstrate that textured closed surfaces, i.e., particles made of perfect electric conductors (PECs), are able to support localized electromagnetic resonances with properties resembling those of localized surface plasmons (LSPs) in the optical regime. Because of their similar behavior, we name these types of resonances as spoof LSPs. As a way of example, we show the existence of spoof LSPs in periodically textured PEC cylinders and the almost perfect analogy to optical plasmonics. We also present a metamaterial approach that captures the basic ingredients of their electromagnetic response. DOI: 10.1103/PhysRevLett.108.223905 PACS numbers: 42.25.Àp, 73.20.Mf, 78.20.Bh, 81.05.Xj In recent years, plasmonics has attracted a great deal of attention due to the possibility of subwavelength confinement and concomitant enhancement of the electromagnetic (EM) field at metal-dielectric interfaces [1][2][3]. Surface plasmons exist either as propagating surface plasmon polaritons (SPPs) for extended interfaces and waveguide configurations or as localized surface plasmons (LSPs) in structures with closed surfaces, i.e., particles [4]. Common to these surface modes is a list of promising applications taking advantage of their subwavelength nature. For example, SPPs are excellent candidates for miniaturization of photonic circuits [5], whereas LSPs have been used in near-field optics [6], surface-enhanced spectroscopy [7][8][9], plasmonic antennas [10,11], and photovoltaics [12,13] due to the field enhancement (FE) occurring at the LSP resonance. On a more fundamental level, it has been shown that both LSPs and SPPs are able to enhance light-matter interaction at the subwavelength scale [14,15]. As subwavelength confinement of surface plasmons relies on the penetration of the EM field into the metal, its usage is inevitably limited to visible or near-infrared frequencies. At lower frequencies, metals sustain EM modes that are weakly bound and thus behave akin to perfect electric conductors (PECs), which do not support surface plasmons.To export the exciting properties of surface plasmons to low frequencies (far infrared, terahertz or microwave), the concept of spoof surface plasmons was developed [16,17]. In contrast to conventional SPPs, spoof surface plasmons also exist in the PEC limit since they are geometry-induced bound EM modes that arise when a metal surface is periodically textured on a subwavelength scale. Spoof SPPs with subwavelength transverse confinement have been found both in periodic perforated plane surfaces [16][17][18][19][20] and in a variety of structured waveguide configurations [21][22][23][24]. In this Letter, we extend the concept of designer plasmons by demonstrating the existence of spoof localized surface plasmons (spoof-LSPs) in periodically textured PEC particles both in two and three dimensions. To illustrate our finding, we show that an almost perfect analogy exists between the EM response of a structured two-dimensional (2D) PEC cylinder and that of a regular metallic cylinder with a Dr...
