An innovative planar spoof plasmonic neural network (SPNN) platform capable of directly detecting and processing terahertz (THz) electromagnetic signals has been unveiled by researchers at City ...
Advancements in AI and IoT are driving demand for more powerful computing, leading to innovative solutions like optical ...
The paper, “Terahertz spoof plasmonic neural network for diffractive information recognition and processing,” was recently ...
UCLA's new unidirectional imaging technology enables image formation in a single direction, preventing image capture in the ...
This review begins by introducing the development history of optical neural networks (ONNs) and the mathematical models of optical artificial neurons. It explores the differences in constructing ONNs ...
The Company management will host in person meetings with interested investors during the conference dates. Conference participation is by invitation only and registration is mandatory. For more ...
The technique doesn’t use any conventional processing elements and, instead, relies on diffractive surfaces. They also describe a “data free” design approach that does not rely on deep learning.
As reported in Advanced Photonics Nexus, the Ozcan Research Group at UCLA, led by Professor Aydogan Ozcan, has demonstrated ...
Panacol has successfully formulated resins for imprint replication of refractive lenses and diffractive optical elements ...
因为LLM的突破,这一波狼来了,对于AR眼镜来说,可能从根本上已经不同以往。在谈这一波AI+AR眼镜热潮前,有一家在国内甚少被讨论的AR眼镜公司,INMO,它的“失败”案例值得被研究。