More importantly, even if it’s imperfect it could lead to earlier detection, which remains the single biggest factor in ...

The ultra-thin metalens, just 380 nanometers thick, delivers near-theoretical limits in DUV focusing performance. Lab tests confirmed that the lens enables DUV nanostructure imaging and ultrafast ...

San Francisco marked its 175th anniversary with a laser show by Illuminate, lighting up City Hall and debuting a new mobile ...

Semiconductor chips have traditionally been manufactured in two dimensions. But as devices become more powerful and compact, ...

Physicists at Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have created a compact laser that ...

Physicists at Harvard have developed a powerful new laser-on-a-chip that emits bright pulses in the mid-infrared spectrum – ...

Microplastics and the much smaller nanoplastics enter the human body in various ways, for example through food or the air we breathe. A large proportion is excreted, but a certain amount remains in ...

Microplastics and much smaller nanoplastics enter the human body in various ways, for example through food or the air we ...

Low-latency Fast Mode delivers 17.9ms response time for fast-paced movies, sports and games. Peter Huang, president of BenQ Corporation, said: “As projection technology advances, consumers now seek ...

Microplastics and the much smaller nanoplastics enter the human body in various ways, for example through food or the air we breathe.

This valuable study combines real-time keypoint tracking with transdermal activation of sensory neurons to investigate sensory neuron recruitment in freely moving mice, and builds on the authors' ...

The approach uses lasers and holograms to detect misalignments as small as 0.017 nanometers. Researchers at the University of ...