Multilayered structures for p- and s-polarized long-range surface-plasmon-polariton propagation

Abstract: A normalized admittance diagram assists in describing and designing multilayered structures to excite long-range surface-plasmon-polariton (LRSPP) waves of either the p- or the s-polarization state. These structures comprise symmetric periodic multilayers on one or both sides of a metal thin film in either the Kretschmann or the Sarid configuration. The normalized admittance diagram even assists in designing structures that can be used to excite LRSPP waves of both polarization states simultaneously.

“…As in Part II, the anglesχ v and δ v were taken to be 45 • and 30 • , respectively, and Ω = 200 nm for all results presented here. (17). Theoretical analysis confirms thatû 1 · P > 0 for z < 0 for this case.…”

“…SPP waves guided by the interface of a metal and a nonhomogeneous dielectric material exhibit remarkable characteristics [9]. The nonhomogeneous dielectric materials investigated include continuously varying materials [10][11][12][13] such as liquid crystals, as well as layered structures [14][15][16][17].…”

“…The components parallel toû 1 ,û 2 , andû z , are represented by black solid, red dashed, and blue chain-dashed lines, respectively. The data were computed by setting a p = 1 V m −1 , with a s = 0, b 1 = 0, and b 2 = −1.3026 − i7.9841 then obtained using(17). Same asFig.…”

Multiple trains of same-color surface plasmon-polaritons guided by the planar interface of a metal and a sculptured nematic thin film. Part IV: Canonical problem

“…As in Part II, the anglesχ v and δ v were taken to be 45 • and 30 • , respectively, and Ω = 200 nm for all results presented here. (17). Theoretical analysis confirms thatû 1 · P > 0 for z < 0 for this case.…”

“…SPP waves guided by the interface of a metal and a nonhomogeneous dielectric material exhibit remarkable characteristics [9]. The nonhomogeneous dielectric materials investigated include continuously varying materials [10][11][12][13] such as liquid crystals, as well as layered structures [14][15][16][17].…”

“…The components parallel toû 1 ,û 2 , andû z , are represented by black solid, red dashed, and blue chain-dashed lines, respectively. The data were computed by setting a p = 1 V m −1 , with a s = 0, b 1 = 0, and b 2 = −1.3026 − i7.9841 then obtained using(17). Same asFig.…”

Multiple trains of same-color surface plasmon-polaritons guided by the planar interface of a metal and a sculptured nematic thin film. Part IV: Canonical problem

“…Only under a proper relation between the positions of the start point of metallic film and negative Y M are the shapes of admittance loci able to intersect at points close to the admittance of the incident medium. Then, the well-known SP resonance phenomenon can be excited [23]- [25]. The TP resonance excited from the metal side can be understood in a similar way.…”

Tunability and Optimization of Coupling Efficiency in Tamm Plasmon Modes

“…The first application of plasmonic phenomenon as a sensing tool was observed in gas detection and biosensing [1]. Admittance loci method has been used in thin film modeling [2] and design of plasmonic structures [3][4][5][6]. Investigation on surface plasmon sensor comprising of high refractive index transparent ceramic prism material for improved sensitivity has been reported [7].…”

Performance evaluation of admittance loci based design of a ceramic prism based plasmonic structure