When the light absorbers are made very small, almost all the device performance metrics improve—but doing this is easier said than done.

When the light absorbers are made very small, almost all the device performance metrics improve—but doing this is easier said than done.
An Ising machine built on lattice defects solves problems faster than conventional computers without the drawbacks of quantum systems.
This is just the beginning, say scientists working on the new technology.
Their unprecedented control over light will lead to breakthroughs in telecommunications, medical imaging, and quantum computing.
This robotic feeding system trained with machine learning will transform lives, giving independence to those with severe mobility issues.
Machine learning unveils the ideal structure of a quantum memristor, which could one day surpass current computing systems.
A new method to purify silicon for quantum computer chips could solve one of the biggest challenges in quantum computing.
These biohybrid machines combine robotics with living tissues to create flexible robots powered by biology.
Chaotic pools of DNA could be the future of encryption, proving authenticity of artwork or securing passwords against quantum computers.
Quantum dots are key to a new laser that could transform medical imaging, diagnostics, and boost communication.