Synopsys Photonic Solutions

Researchers have developed a groundbreaking method for creating erasable photonic patterns on binary mix-halide perovskite films using a direct photo-patterning technique. This innovation enables the fabrication of erasable photonic cryptography chips, which ensure secure data transmission and prevent secondary leakage. By leveraging controlled ion migration and photochemical degradation, the technique achieves high-fidelity photoluminescence images that can be quickly erased within 5 seconds. Additionally, neural network-assisted multi-level pattern encoding enhances information security. This advancement offers new opportunities for low-cost, high-throughput, high-resolution photonic patterning in optoelectronic integrated devices. https://lnkd.in/gbVPFRsU Citation: Figure 1 is from Zhao, Y., Zhang, M., Wang, Z. et al. Direct photo-patterning of halide perovskites toward machine-learning-assisted erasable photonic cryptography. Nat Commun 16, 3316 (2025). https://lnkd.in/gk8bDWtS.

Researchers at the University of Naples Federico II have developed a liquid-crystal-based platform that significantly reduces optical losses in photonic circuits. This innovative optical processor can handle hundreds of optical modes in a compact, two-dimensional setup, making it ideal for applications in quantum simulations and AI systems. The team used liquid-crystal metasurfaces and a new algorithm to create smooth patterns, enabling the simulation of up to 800 optical modes. This breakthrough offers new possibilities for low-loss circuits and advanced photonic quantum experiments. F Article via optics.org: https://lnkd.in/g-HuZRZu

Photonics technology is at the forefront of new microdisplay developments, driving advancements in microLED and microOLED technologies for applications in smartphones, wearables, and AR/VR/MR headsets. Despite the manufacturing challenges, these displays offer significant benefits such as lower power consumption, increased brightness, and faster response times. Industry experts predict substantial market growth for microLED and microOLED displays by 2030. Continued innovation and collaboration within the photonics sector are essential to overcoming production hurdles and enabling widespread adoption. Via Laser Focus World:https://lnkd.in/gs5KJrp6

We recently participated in the EPIC Technology Meeting on Disruptive Optics held at Thales. The event provided an excellent platform for discussing emerging optics technologies across various applications, including space, defense, and medical fields. Dr. Maryvonne Chalony, our Application Engineer from France, presented on "Optical and Manufacturing Design Aware Flow for Metalenses." The presentation explored innovative approaches in designing and manufacturing metalenses, highlighting their potential to transform optical applications. The sessions were well-balanced, offering comprehensive perspectives on both business strategies and technical advancements. We appreciate EPIC - EUROPEAN PHOTONICS INDUSTRY CONSORTIUM for organizing this informative meeting and thank all the attendees for their engaging discussions. We look forward to ongoing collaboration and innovation in the field of optics. #Optics #Photonics #Metasurfaces #Innovation #EPICMeeting #MetaOpticDesigner

PhotonDelta and Silicon Catalyst have announced a strategic collaboration to support early-stage photonic startups. This partnership will provide startups with access to an incubation program, expert guidance, and funding opportunities. PhotonDelta, having raised nearly $1.5 billion over the past five years, aims to accelerate the commercialization of photonic technologies. The collaboration seeks to drive innovation and growth in the photonics sector, leveraging the expertise and resources of both organizations. Article via Optics.org: https://lnkd.in/diqMwFhe

OpenLight has partnered with TFC (Suzhou TFC Optical Communication Co., Ltd) to advance the silicon photonics back-end process, streamlining wafer processing to FAU subassembly for optical engines. This collaboration aims to optimize the supply chain, reduce costs, and accelerate time-to-market in response to growing demand in data-center AI/ML and LiDAR markets. Learn more about how this partnership will enhance manufacturing efficiency and industry adoption of silicon photonics. https://lnkd.in/drQaCV93 #SiliconPhotonics #OpticalInterconnects #TechNews #OpenLight #TFC

Lightmatter has developed a groundbreaking 3D photonic chip that achieves a record 114 Tbps optical bandwidth, offering unprecedented data transmission rates. This innovative chip utilizes a three-dimensional design to integrate multiple waveguides, significantly enhancing data capacity while maintaining compactness. This advancement could revolutionize data centers, high-speed communications, and other bandwidth-intensive applications. Via eeNews Europe: https://lnkd.in/gAgX_G3W

A new multifunctional analog parallel processor (APP) for broadband integrated systems has been developed, integrated in a compact silicon photonic chip. This innovative platform discretizes and parallelizes broadband signals directly in the optical domain, significantly reducing computational complexity and eliminating the need for high-speed memory traditionally required for serial-to-parallel conversion. This advancement could greatly enhance the performance of AI, IoT, and high-speed communication systems. Light: Science & Applications: https://lnkd.in/gcCv5_fH

Researchers at the University of Naples Federico II have developed a liquid-crystal platform that overcomes optical losses in photonic circuits, enabling the manipulation of hundreds of optical modes in a compact, 2D setup. This innovation addresses a critical limitation in scaling photonic systems for applications like quantum computing and AI. The platform uses LC metasurfaces to simulate quantum processes with minimal loss, paving the way for advanced low-loss photonic circuits. Via Phys.org: https://lnkd.in/eG6iwpw7

NVIDIA has unveiled plans to leverage silicon photonics and co-packaged optics (CPO) to connect millions of GPUs in AI factories. Announced at GTC 2025, NVIDIA's new silicon photonics network switch platforms, Spectrum-X and Quantum-X, aim to address the growing demands of AI data centers by improving bandwidth, reducing power consumption, and enhancing efficiency. This innovation is set to revolutionize hyperscale and enterprise networks, paving the way for next-generation AI workloads. Via Optica: https://ow.ly/RLJV50Vx4GK #AI #Photonics #CoPackagedOptics #HighPerformanceComputing #Innovation #TechNews