A new 3D image projection system marks a major step toward overcoming a longstanding problem for holographic technology.

The system is designed for high-volume, rapid production of 3D packaging made from fibre-based materials.

Understanding biological activities in cells or deep tissues requires high-speed three-dimensional (3D) imaging. Substantial progress has been made with the emergence of 3D random-access microscopy.

Monolithic three-dimensional (M3D) integration is being increasingly adopted by the semiconductor industry as an alternative to traditional through-silicon via technology as a way to increase the ...

It all began with a show-stopping demonstration that wowed audiences in the manufacturing world. It was at the International Manufacturing Technology Show in 2014 when the three-dimensional printing ...

Valmet launches 3D Fiber technology enabling high-capacity production of lightweight, rigid molded fiber packaging as a ...

Valmet expands its offering to the growing molded fiber market with the launch of Valmet 3D Fiber technology. The solution ...

Figure 1 Schematic diagram of a three-dimensional integrated multichannel waveguide grating filter: (a) 1:1 planar beam splitter, (b) 1:1 three-dimensional beam splitter, (c) waveguide gratings ...

Over 200 brainstem nuclei and fiber tracts have been mapped across three distinct life stages, from 25 weeks in the womb to ...

As process nodes continue to advance into the sub-micron era, the limitations of traditional scaling are becoming increasingly evident. Larger monolithic chips are facing challenges such as higher ...

Global chemical company BASF and Japanese apparel company Wacoal are expanding their collaboration beyond bra cup development ...