Researchers are advancing thermophotovoltaic (TPV) systems, which convert heat into electricity using photovoltaic cells, presenting…
Browsing: SPIE
The International Society for Optics and Photonics (SPIE) is a professional society that advances research, education, and industry in the fields of optics, photonics, and related scientific and engineering disciplines. Founded in 1955, SPIE serves a global community of scientists, engineers, and practitioners through conferences, publications, and educational resources. Its mission is to promote the science and application of light-based technologies, facilitating collaboration and innovation in fields such as biomedical optics, imaging, laser technologies, optical systems, and photonic devices. SPIE hosts prominent conferences and events, publishes technical journals and proceedings, and provides support for emerging technologies and careers through scholarships, grants, and professional development programs.
Scientists have made a groundbreaking advancement in understanding light propagation through complex media, potentially revolutionizing…
Researchers achieve advances in periodic oscillations and transportation for optical pulses, with potential for next-gen…
All-optical multiplane quantitative phase imaging design eliminates the need for digital phase recovery algorithms. UCLA…
A breakthrough in integrated photonics has allowed researchers to harness light manipulation on silicon chips,…
Principles behind gravity-mediated entanglement were experimentally demonstrated in a simulation using photons, providing new insights…
A groundbreaking approach utilizes a split Lohmann lens-based diffraction model for the real-time creation of…
Researchers developed a 60-milliwatt solid-state DUV laser at 193 nm using LBO crystals, setting new…
Researchers develop a computer from an array of VCSELs with optical feedback. In our data-driven…
Wider superconducting strips enable better photon-number resolution, with greater dynamic range and fidelity. Using single…
Tiled titanium:sapphire laser amplification promises to enhance the experimental capability of ultra-intense ultrashort lasers for…
The protective material transforms harmful ultraviolet photons into visible light, increasing the conversion efficiency of…
Generation of nearly deterministic OAM-based entangled states offers a bridge between photonic technologies for quantum…
New technique accomplishes efficient recognition and real-time control of angular momentum modes. Rotating objects carry…
Researchers integrate terahertz vortex beam emission to advance radar target detection technology. You may not…
New approach to controlling moiré flatbands adjusts band offset of two photonic lattices. When two…
Scientists developed an innovative multilayered design to significantly boost the performance of next-generation solar cells.…
Using novel differentiated design principles, researchers offer a way to eliminate chromatic aberration in metasurfaces.…