TY - JOUR
T1 - Interplay between electric and magnetic effect in adiabatic polaritonic systems
AU - Alabastri, Alessandro
AU - Toma, Andrea
AU - Liberale, Carlo
AU - Chirumamilla, Manohar
AU - Giugni, Andrea
AU - De Angelis, Francesco
AU - Das, Gobind
AU - Di Fabrizio, Enzo
AU - Zaccaria, Remo Proietti
N1 - KAUST Repository Item: Exported on 2021-02-05
Acknowledgements: The authors gratefully acknowledge support from European Projects Nanoantenna FP7-HEALTH-2009, Grant No. 241818 and FOCUS FP7 No. 270483.
PY - 2013/3/25
Y1 - 2013/3/25
N2 - We report on the possibility of realizing adiabatic compression of polaritonic wave on a metallic conical nano-structure through an oscillating electric potential (quasi dynamic regime). By comparing this result with an electromagnetic wave excitation, we were able to relate the classical lighting-rod effect to adiabatic compression. Furthermore, we show that while the magnetic contribution plays a marginal role in the formation of adiabatic compression, it provides a blue shift in the spectral region. In particular, magnetic permeability can be used as a free parameter for tuning the polaritonic resonances. The peculiar form of adiabatic compression is instead dictated by both the source and the metal permittivity. The analysis is performed by starting from a simple electrostatic system to end with the complete electromagnetic one through intermediate situations such as the quasi-electrostatic and quasi-dynamic regimes. Each configuration is defined by a particular set of equations which allows to clearly determine the individual role played by the electric and magnetic contribution in the generation of adiabatic compression. We notice that these findings can be applied for the realization of a THz nano-metric generator.
AB - We report on the possibility of realizing adiabatic compression of polaritonic wave on a metallic conical nano-structure through an oscillating electric potential (quasi dynamic regime). By comparing this result with an electromagnetic wave excitation, we were able to relate the classical lighting-rod effect to adiabatic compression. Furthermore, we show that while the magnetic contribution plays a marginal role in the formation of adiabatic compression, it provides a blue shift in the spectral region. In particular, magnetic permeability can be used as a free parameter for tuning the polaritonic resonances. The peculiar form of adiabatic compression is instead dictated by both the source and the metal permittivity. The analysis is performed by starting from a simple electrostatic system to end with the complete electromagnetic one through intermediate situations such as the quasi-electrostatic and quasi-dynamic regimes. Each configuration is defined by a particular set of equations which allows to clearly determine the individual role played by the electric and magnetic contribution in the generation of adiabatic compression. We notice that these findings can be applied for the realization of a THz nano-metric generator.
UR - http://www.scopus.com/inward/record.url?scp=84875733071&partnerID=8YFLogxK
U2 - 10.1364/OE.21.007538
DO - 10.1364/OE.21.007538
M3 - Article
C2 - 23546136
AN - SCOPUS:84875733071
SN - 1094-4087
VL - 21
SP - 7538
EP - 7548
JO - Optics Express
JF - Optics Express
IS - 6
ER -