Overcoming conventional technological limitations to realize high-speed optical coherence modulation at 350 kHz. Structured light fields possess a wide range of unique and powerful characteristics. By ...

The lithium niobate thin-film modulator was designed to achieve a modulation frequency of 350 kHz within the 0–2π phase range, further realizing high speed control of optical field coherence.

A silicon-lithium niobate metasurface controls light through air at gigahertz speeds, advancing compact systems for optical ...

Stanford engineers have created new VR glasses that are thinner than a credit card and generate lifelike, mixed-reality ...

Chip-scale integration of optical frequency combs provides miniaturized instrumentation that bridges optical and microwave signals. Recently, Chinese scientists have demonstrated soliton microcombs in ...

A KAIST research team led by Professor Won Do Heo (Department of Biological Sciences) has developed an optogenetic platform, ...

Topological materials are a class of materials that exhibit unique electronic properties at their boundary (surface in 3D ...

A new mixed reality breakthrough uses holographic waveguides and AI to deliver lifelike 3D images, without bulky headsets or ...

Professor Xufeng Jing's research team at China Jiliang University has conducted a systematic study on wireless communication technologies based on ...

A team of scientists led by Gordon Wetzstein, a professor of electrical engineering and director of the Stanford Computational Imaging Lab, has been working on solving both the immersion and the ...

TFLN electro-optics offers high performance in sensing and quantum technologies, driving innovations in integrated photonic ...