
Sound waves support photonic computing
A photonic nonlinear activation function based on stimulated Brillouin scattering.
A photonic nonlinear activation function based on stimulated Brillouin scattering.
Very low error probabilities satisfy an important condition for future large-scale quantum computation.
New approach could pave the way for optical transistors and memory for optical computing.
New approach to store digital data with crystal defects.
New approach to combine non-volatility, multibit storage, high switching speed and low switching energy.
Researchers at Paderborn University highlight their pioneering role in the development of light-based quantum technologies.
A programmable framework overcomes a key computational bottleneck of optical neural networks.
Technology eliminates optical-electronic conversions for ultrafast machine vision.
Theoretical quantum speedup with the quantum approximate optimization algorithm.
The scalable device is based on lithium tantalate and has a potential to widespread commercial applications.
New device demonstrates ability to reduce glare in images.
Experimental demonstration of an optoacoustic recurrent operator:
The first universal, programmable and multifunctional photonic chip on the market.
Quantum interference among several single photons demonstrated.
New device enables fast reprogramming with reduced power consumption.
A new method could enable the stable exchange of information in quantum computers.
New mission will enable quantum cryptography across large distances.
A new silicon photonics platform for vector–matrix multiplication.
Extending the planar recording architecture to three dimensions with hundreds of layers.