Every once in a while, a secular trend is so obvious that everyone can see it, and that is the case with AI. Read more here.

Abstract: This paper presents the design and experimental validation of an optically programmable Digital Impedance Surface (DIS). Utilizing discrete binary impedance switching, a novel triangular ...

The global integrated circuit (IC) industry is confronting the physical limitations of Moore's Law. Atomic-layer-thick two-dimensional (2D) semiconductors, such as Molybdenum Disulfide (MoS2), are ...

How a Stanford University research team used acoustic waves to manipulate light. Device implementation involving gold nanoparticles placed in a particle-on-mirror configuration with a compressible ...

Ahead of an upcoming technical conference, researchers from Meta’s Reality Labs Research group published details on their work toward creating ultra-wide field-of-view VR & MR headsets that use novel ...

It was announced recently that Meta is partnering with military tech company Anduril to bring XR technology to the battlefield. New job listings indicate the company is also looking to expand its XR ...

The color routing effect provides a unique approach for steering photon momentum in both frequency and spatial domains with high-efficiency spectrum utilization. In the investigation of propagating ...

Folsom Field is getting a makeover. The University of Colorado is replacing its natural grass turf and going to an artificial surface at Folsom Field for the first time since 1998. Installed by ...

Abstract: Liquid crystal elastomers (LCEs) offer potentially programmable actuation through precise molecular alignment, making them ideal for microactuators in soft robotics and optical systems.

What’s a field-programmable analog array (FPAA), and how does it work? Dr. Jennifer Hasler, who carried out pioneering work on FPAAs at Georgia Tech, explains this analog device’s anatomy and workings ...