Broadband Asymmetric Transmission of Linearly Polarized Mid‐Infrared Light Based on Quasi‐3D Metamaterials

Whiting, Eric B.; Goldflam, Michael; Kang, Lei; Sinclair, Michael B.; Musick, Katherine M.; Campbell, Sawyer D.; Burckel, David Bruce; Werner, Douglas H.

doi:10.1002/adfm.202109659

Cited by 6 publications

(1 citation statement)

References 45 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Remarkably, noble metal nanoparticles have been pointed out with key factors of tandem processes and good candidates for designing optical platforms with ultrafast response in different regions of the electromagnetic spectrum. Gold and silver nanoparticles present their LSPR in the visible region while platinum displays LSPR for more powerful photons in the UV [15].…”

Section: Introductionmentioning

confidence: 99%

Cascade integration of nonlinear phenomena exhibited by monometallic nanoparticles

Estrada-León¹

2022

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

In this work were numerically analyzed the third-order nonlinear optical effects exhibited by combinations of uncoupled monometallic silver, gold and platinum nanoparticles. The nanosystems were considered to be homogeneous and surrounded by a dielectric matrix. The design of the nanostructures was evaluated as a collective behavior resulting from the specific order of the set in trilayer tandem form. The characteristic Localized Surface Plasmon Resonance phenomena in the yellow, green and ultraviolet absorption bands for the Ag, Au and Pt; respectively, were considered. Different permutations of the three kind of monometallic elements selected in sequence were studied by using the wave equation and the finite difference method. Immediate indications useful for exploring nonlinear nanodevices and for building up nanostructured platforms based on nanoscale functions can be anticipated from this work.

show abstract

Section: Introductionmentioning

confidence: 99%

Cascade integration of nonlinear phenomena exhibited by monometallic nanoparticles

Estrada-León¹

2022

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

show abstract

Unidirectional Transmission Metasurfaces with Topological Continuity Generated from High‐dimensional Design Space

Deng,

Yu,

Cao

et al. 2024

Small

View full text Add to dashboard Cite

With the growing demand for nanodevices, there is a concerted effort to improve the design flexibility of nanostructures, thereby expanding the capabilities of nanophotonic devices. In this work, a Laplacian‐weighted binary search (LBS) algorithm is proposed to generate a unidirectional transmission metasurface from a high‐dimensional design space, offering an increased degree of design freedom. The LBS algorithm incorporates topological continuity based on the Laplacian, effectively circumventing the common issue of high structural complexity in designing high‐dimensional nanostructures. As a result, metasurfaces developed using the LBS algorithm in a high‐dimensional design space exhibit reduced complexity, which is advantageous for experimental fabrication. An all‐dielectric metasurface with unidirectional transmission, designed from the high‐dimensional space using the LBS method, demonstrated the successful application of these design principles in experiments. The metasurface exhibits high optical performance on unidirectional transmission in measurements by a high‐resolution angle‐resolved micro‐spectra system, achieving forward transmissivity above 90% (400–700 nm) and back transmissivity below 20% (400–500 nm) within the targeted wavelength range. This work provides a feasible approach for advancing high‐dimensional metasurface applications, as the LBS design method takes into account topological continuity during experimental processing. Compared to traditional direct binary search (DBS) methods, the LBS method not only improves information processing efficiency but also maintains the topological continuity of structures. Beyond unidirectional transmission, the LBS‐based design method has generality and flexibility to accommodate almost all physical scenarios in metasurface design, enabling a multitude of complex functions and applications.

show abstract

Ultra-wideband linear-polarization conversion metasurface with high-efficient asymmetric transmission

Huang

Gao

et al. 2023

Appl. Phys. A

View full text Add to dashboard Cite

Broadband Asymmetric Transmission of Linearly Polarized Mid‐Infrared Light Based on Quasi‐3D Metamaterials

Cited by 6 publications

References 45 publications

Cascade integration of nonlinear phenomena exhibited by monometallic nanoparticles

Cascade integration of nonlinear phenomena exhibited by monometallic nanoparticles

Unidirectional Transmission Metasurfaces with Topological Continuity Generated from High‐dimensional Design Space

Ultra-wideband linear-polarization conversion metasurface with high-efficient asymmetric transmission

Contact Info

Product

Resources

About