They are important niches to the scientists who can now solve previously unsolvable problems, but they may not constitute ...

Scattering takes place across the universe at large and miniscule scales. Billiard balls clank off each other in bars, the nuclei of atoms collide to ...

The second law of thermodynamics underpins all of classical reality. It is the reason why it's easier to make things messy, why you can’t have perpetual motion, why you age, and maybe even why time ...

Lightweight, robust, radiation-resilient photovoltaics are critical technologies for many aerospace applications. OPV cells ...

Quantum technologies can be defined as technologies that, based on quantum mechanics, have capabilities that go beyond what ...

A major milestone in quantum computing has been achieved after researchers at the University of Oxford built a scalable ...

By blending digital control with analog simulations, scientists have created a powerful new quantum simulator that pushes ...

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access ...

A new modeling technique may finally help scientists understand the chaotic phenomenon of turbulence which has escaped them ...

Researchers have successfully simulated particle creation in an expanding universe using IBM's advanced quantum computers.

Scientists have taken a major step toward building large-scale quantum computers by successfully linking two separate quantum ...