Tight focus and field enhancement of terahertz waves using a probe based on spoof surface plasmons

Abstract: In order to improve the resolution of terahertz near-field microscopic imaging technology, an ultra-thin thickness-graded silver-plated strip probe with the same duty cycle is designed to realize the excitation of spoof surface plasmons. By comparing with two other probes with different structures, it can be found that the thickness-graded silver-plated strip probe can produce a strong electric field enhancement effect. Thereafter, the influence of the polarization direction of the incident electric field and … Show more

“…The Abbe limit can be overcome by using composite lens made of highly resistive silicon and high-density polyethylene, so that the resolution is enhanced from 0.85λ to 0.35λ at 0.5 THz [15] . The diameter of the incident beam is converged into 0.5λ at the focal plane by using a super-surface lens consisting of a stacked graphene strip within two layers of graphene [16] or even λ=150 at 0.1 THz by utilizing THz surface plasmon polaritons [17] .…”

Binary diffractive lens with subwavelength focusing for terahertz imaging

“…The Abbe limit can be overcome by using composite lens made of highly resistive silicon and high-density polyethylene, so that the resolution is enhanced from 0.85λ to 0.35λ at 0.5 THz [15] . The diameter of the incident beam is converged into 0.5λ at the focal plane by using a super-surface lens consisting of a stacked graphene strip within two layers of graphene [16] or even λ=150 at 0.1 THz by utilizing THz surface plasmon polaritons [17] .…”

Binary diffractive lens with subwavelength focusing for terahertz imaging

High accuracy terahertz computed tomography using a 3D printed super-oscillatory lens