A biocomputer built from connected heart cells solves computational problems with high accuracy and at a low computational cost.
Eliminating computer errors by combining computation and memory
A device brings memory and processing together, helping minimizing errors and avoiding increasing energy demands due to huge amounts of data.
An important step toward the theory of superconductivity
Understanding room temperature superconductivity one step closer thanks to researchers looking at the effects of pressure.
Entangling particles helps improve the accuracy of quantum measurements
Using 19 different quantum computers, scientists demonstrate how entangled particles break limitations in accuracy on the sub-atomic scale.
Can art help us understand our own brain?
The exhibition Brain(s) uses artistic installations to explore unanswered questions and the relationship between science and culture.
Artificial neural networks made from memristors for brain-inspired computing
Artificial neural networks made from domain walls mimic synapses and neurons in the brain for neuromorphic computers.
Building ultra-precise clocks thanks to quantum entanglement
Scientists use quantum entanglement to compare two atomic clocks achieving what might be the ultimate precision possible.
Designing “fluid brains” to take the edge off soft robots
Rigid elements are holding soft robots back from their full potential, and new research suggests swapping in fluid-based systems.
Three distinct molecular qubits in one supramolecule
A molecular complex was built to contain three distinct qubits, offering an intriguing architecture for future quantum computers.
Single photons light up quantum encryption
Exploiting defects in 2D hexagonal boron nitride to create reliable single photons, researchers have upped their quantum encryption game.