Corning Incorporated announced the launch of a new glass composition to advance the development of augmented and mixed reality (AR/MR) diffractive waveguides for wearable devices. Optical advancements inherent in the glass take the augmented reality experience to the next level through larger, clearer digital content that creates more engaging and immersive user experiences. Corning's Advanced Optics business efficiently delivers high-quality glass that has been designed, measured, and cut to meet precise customer needs with unique end-to-end solutions, enabling advancements in the AR/MR market for nearly a decade.

The new 2.0 high-index glass joins the company's AR/MR portfolio, which also includes high-index compositions of 1.8 and 1.9. Corning Advanced Optics' new 2.0 high-refractive index glass will enable a wider field of view (FOV) and enhanced optical clarity, including best-in-class light transmission for blue wavelength in AR/MR wearable devices. Compared with glass compositions with lower refractive index values, OEMs can achieve a greater FOV with fewer pieces of glass, allowing for lighter, sleeker, and more cost-effective headset designs. Corning's 2.0 glass composition, as well as its comprehensive solutions for flatness metrology and precision laser glass cutting, will further enable the AR/MR industry, bringing mass consumer adoption one step closer.

Corning's 2.0 glass is available in wafer diameters of 150 mm, 200 mm, and 300 mm and a range of thicknesses with leading geometric tolerances. The launch of this new composition builds on Corning's leadership in glass and ceramic science, optical physics, and its proprietary manufacturing platforms. This expertise enabled the company to be first to market with ultra-flat, high-index glass wafers for top-tier consumer electronic companies pursuing AR/MR waveguide devices.