Full-Stokes Polarization Perfect Absorption with Diatomic Metasurfaces
Metamaterial-based perfect absorbers provide efficient ways for selective absorption of light with both linear or circular
Metamaterial-based perfect absorbers provide efficient ways for selective absorption of light with both linear or circular
Ultrathin flat lenses based on metasurfaces or metamaterials have shown great promise in recent years as
Particle nano tracking (PNT) is highly desirable in lab-on-a-chip systems for flexible and convenient multi parameter
Planar graphene metalens has demonstrated advantages of ultrathin thickness (200 nm), high focusing resolution (343 nm)
We demonstrate enhanced four-wave mixing (FWM) in doped silica waveguides integrated with graphene oxide (GO) layers.
Graphene-based metamaterials have been theoretically demonstrated as an enabler for applications as perfect absorbers, photodetectors, light
Graphene oxide (GO) ultrathin flat lenses have provided a new and viable solution to achieve high
The development of ultrathin flat lenses has revolutionized the lens technologies and holds great promise for
Ultrathin flat optics allow control of light at the subwavelength scale that is unmatched by traditional
Microbubbles acting as lenses are interesting for optical and photonic applications such asvolumetric displays, optical resonators,