Polarization control and enhanced magnetic field sensitivity utilizing surface plasmon polaritons-assisted dual-V-type four-level system

Abstract: We propose a kind of surface plasmon polaritons (SPPs)-assisted dual-V-type four-level composite system used for high-sensitivity weak magnetic field measurement. The SPPs are excited by a D-shaped photonic crystal fiber (PCF) deposited with gold nanowires, and are interacted with the above quantum emitter from the rubidium atomic vapor. In the presence of the external magnetic field, Faraday rotation symmetry is broken due to Zeeman effect, resulting in the polarization plane rotation when a linearly polarize… Show more

“…However, the constrained FR angle, resultant from their relatively insubstantial thickness compared to the THz wavelength, necessitates the imposition of exceptionally high magnetic fields and the maintenance of cryogenic temperatures. The propagation of surface plasmon polariton (SPP) waves in graphene, notably, can be modulated through adjustments to the chemical potential, whereby the augmentation of plasmonic effects is positively influenced, thereby enhancing the FR [23,24]. Our earlier work [25] introduced a Faraday rotator utilizing asymmetric graphene ribbons, achieving a FR of up to 24 degrees.…”

Versatile design of tunable Faraday rotator for terahertz band using graphene-InSb-graphene and 1D photonic crystal

“…However, the constrained FR angle, resultant from their relatively insubstantial thickness compared to the THz wavelength, necessitates the imposition of exceptionally high magnetic fields and the maintenance of cryogenic temperatures. The propagation of surface plasmon polariton (SPP) waves in graphene, notably, can be modulated through adjustments to the chemical potential, whereby the augmentation of plasmonic effects is positively influenced, thereby enhancing the FR [23,24]. Our earlier work [25] introduced a Faraday rotator utilizing asymmetric graphene ribbons, achieving a FR of up to 24 degrees.…”

Versatile design of tunable Faraday rotator for terahertz band using graphene-InSb-graphene and 1D photonic crystal