3D-printed ceramics enable smaller, more stable quantum devices for applications in quantum computing, sensing, and communications.
A working quantum battery may be just around the corner
Scientists create designs for quantum batteries, which harness the potential of quantum mechanics to enhance energy storage.
Scientists hope a new take on superconductivity could spark more advances in the field
Understanding this unique form of superconductivity is crucial and could lead to exciting applications, like functional quantum computers.
Diamond helps build efficient 3D computer chips
Tackling heat transfer, diamond layers help build 3D circuits with lower power consumption, faster signaling, and increased performance.
An organ-on-chip simulates the effects of cosmic radiation on astronauts
Future astronauts may be protected from galactic cosmic rays thanks to a novel organ-on-chip system containing interconnected human tissue.
New computer solves complex problems by physically mirroring the systems it’s trying to solve
An Ising machine built on lattice defects solves problems faster than conventional computers without the drawbacks of quantum systems.
Riccardo Bassoli: How quantum computing will redefine wireless communication
Future 6G wireless networks will rely on quantum computers, but developing the technology and making it sustainable is complex.
Matter of science: Dialectics and the laws of nature
In this third and final article in a series on philosophy and science, we look at how modern science shows the validity of dialectical processes and how this can help guide science.
Scientists create the largest nonlinear photonic crystal to date
Their unprecedented control over light will lead to breakthroughs in telecommunications, medical imaging, and quantum computing.
What would it take to make quantum memristors a reality?
Machine learning unveils the ideal structure of a quantum memristor, which could one day surpass current computing systems.