Mie-resonant metaphotonics
Mie-resonant metaphotonics is a rapidly develo** field that employs the physics of Mie
resonances to control light at the nanoscale. Mie resonances are excited in high-refractive …
resonances to control light at the nanoscale. Mie resonances are excited in high-refractive …
[HTML][HTML] Revolutionary integration of artificial intelligence with meta-optics-focus on metalenses for imaging
Artificial intelligence (AI) significantly enhances the development of Meta-Optics (MOs),
which encompasses advanced optical components like metalenses and metasurfaces …
which encompasses advanced optical components like metalenses and metasurfaces …
Optical-based aqueous solution detection by graphene metasurface surface plasmon resonance biosensor with behavior prediction using polynomial regression
Aqueous solutions are fundamental to a wide range of chemical and biological processes,
serving as a critical medium for both natural phenomena and technological advancements …
serving as a critical medium for both natural phenomena and technological advancements …
Design and evaluation of tunable terahertz metasurface biosensor for malaria detection with machine learning optimization using artificial intelligence
Malaria continues to be a major global health issue, impacting millions each year and
leading to hundreds of thousands of deaths, especially in less developed areas. Timely and …
leading to hundreds of thousands of deaths, especially in less developed areas. Timely and …
Fabrication of multilevel metalenses using multiphoton lithography: from design to evaluation
We present a procedure for the design of multilevel metalenses and their fabrication with
multiphoton-based direct laser writing. This work pushes this fast and versatile fabrication …
multiphoton-based direct laser writing. This work pushes this fast and versatile fabrication …
Two-photon polymerization for fabrication of metalenses for diffraction-limited focusing and high-resolution imaging
Metalenses consisting of nanoscale unit cells provide new opportunities for miniaturization,
light-weight, and diversification of conventional optical lenses. Fabrication of metalenses is …
light-weight, and diversification of conventional optical lenses. Fabrication of metalenses is …
Multi‐Wavelength Achromatic Graphene Metalenses for Visible, NIR, and Beyond
The demand for achromatic ultrathin flat lenses has become increasingly stringent,
particularly for high‐performance imaging and display applications. Despite significant …
particularly for high‐performance imaging and display applications. Despite significant …
Near-and mid-infrared quintuple-band plasmonic metamaterial absorber
In nanophotonic devices, the absorption of electromagnetic waves plays a critical role.
Attempting to achieve narrowband absorption with multiple operating wavelengths …
Attempting to achieve narrowband absorption with multiple operating wavelengths …
High‐Efficiency Broadband Achromatic Metadevice for Spin‐to‐Orbital Angular Momentum Conversion of Light in the Near‐Infrared
L **e, H Wan, K Ou, J Long, Z Wang, Y Wang… - Small …, 2024 - Wiley Online Library
Spin‐orbital angular momentum conversion (SOC) of light has found applications in
classical and quantum optics. However, the existing SOC elements suffer severe restrictions …
classical and quantum optics. However, the existing SOC elements suffer severe restrictions …
Frontiers of Laser‐Based 3D Printing: A Perspective on Multi‐Photon Lithography
Lasers are instrumental in enabling precise processing and fostering the development of
new technologies. Particularly, ultrafast lasers, due to their unique interaction with matter …
new technologies. Particularly, ultrafast lasers, due to their unique interaction with matter …