Editorial Highlight | 2026-07-13 Latest Published
By Sailing He
PIER Photonics, Vol. 1, 10-11, 2026
Abstract
PIER Photonics is a premier open-access journal launched by The Electromagnetics Academy to serve the rapidly evolving photonics community. Focusing on the frontiers and hot topics, the journal covers six strategic domains: Fundamental Science, Materials and Nanostructures, Integrated Photonic Systems, Healthcare and Life Sciences, Sustainability and Information Technology, and Emerging Frontiers. Built on the PIERS conference legacy, PIER Photonics offers rigorous peer review, rapid publication, and a vibrant platform for transformative photonics research.
Editorial Highlight | 2026-07-13
PIER Photonics
Vol. 1, 10-11, 2026
download: 6
Singular Jones Metasurfaces - Polarization Addressability and Topological Phase Winding
Sailing He
PIER Photonics is a premier open-access journal launched by The Electromagnetics Academy to serve the rapidly evolving photonics community. Focusing on the frontiers and hot topics, the journal covers six strategic domains: Fundamental Science, Materials and Nanostructures, Integrated Photonic Systems, Healthcare and Life Sciences, Sustainability and Information Technology, and Emerging Frontiers. Built on the PIERS conference legacy, PIER Photonics offers rigorous peer review, rapid publication, and a vibrant platform for transformative photonics research.
Singular Jones Metasurfaces - Polarization Addressability and Topological Phase Winding
Article | 2026-07-13
PIER Photonics
Vol. 1, 3-9, 2026
download: 8
Polarization-Addressable Singular Jones Metasurfaces
Haoye Qin, Zijin Yang, Xinyang Mu, Wenjing Lv, Jue Li, Yuzhi Shi, Bo Li, Qinghua Song and Cheng-Wei Qiu
Singular optics are commonly explored through scalar or vectorial singularities, whereas matrix-level singularities remain far less developed for wave manipulations. Here, we experimentally demonstrate polarization-addressable singular Jones metasurfaces using reflective plasmonic nanostructures. By engineering polarization conversion in the reflection subspace, the Jones matrix can be driven to a singular condition, mapping an incident polarization eigenstate to a vectorial zero output. The corresponding eigen-polarization can be addressed across the Poincaré sphere by tailoring meta-atom geometries. Encircling the singularity in a two-dimensional parameter space can yield a full 2π topological phase winding, enabling dual-channel meta-holography and vortex generation. Extreme coupling breaking further produces circularly polarized zero-output eigenstates, revealing chiral Jones singularities. These results establish singular Jones metasurfaces as a compact platform for matrix-level singular optics, polarization-selective extinction, topological wavefront shaping, and chiral light-matter interactions.
Polarization-Addressable Singular Jones Metasurfaces
Editorial | 2026-07-10
PIER Photonics
Vol. 1, 1-2, 2026
download: 29
PIER Photonics - Focusing on the Frontiers and Hot Topics
Sailing He, et al.
PIER Photonics is a premier open-access journal launched by The Electromagnetics Academy to serve the rapidly evolving photonics community. Focusing on the frontiers and hot topics, the journal covers six strategic domains: Fundamental Science, Materials and Nanostructures, Integrated Photonic Systems, Healthcare and Life Sciences, Sustainability and Information Technology, and Emerging Frontiers. Built on the PIERS conference legacy, PIER Photonics offers rigorous peer review, rapid publication, and a vibrant platform for transformative photonics research.
PIER Photonics - Focusing on the Frontiers and Hot Topics