Georgia Tech scientists have discovered a new quantum state in a quirky material. In a phenomenon never before seen in anything else, the team found that applying a magnetic field increased the ...

In a remarkable leap for quantum physics, researchers in Japan have uncovered how weak magnetic fields can reverse tiny ...

Auburn scientists have designed new materials that manipulate free electrons to unlock groundbreaking applications. These ...

The image depicts a quantum scar connected between conductors. It can be controlled using a so-called nanotip carrying an electric charge. Quantum physics often reveals phenomena that defy common ...

For several decades, a central puzzle in quantum physics has remained unsolved: Could electrons behave like a perfect, frictionless fluid with electrical properties described by a universal quantum ...

In a study published in Nature Communications, a research team demonstrates the all-electrical control of quantum ...

Scientists have observed a quantum fluid of electrons in graphene for the first time, showing near-perfect fluid behaviour and shedding light on a quantum physics puzzle. In a collaborative effort, ...

AI-guided synthesis yields a highly conductive MOF thin film, overcoming conductivity limits and unlocking new potential in electronics and energy storage. (Nanowerk News) Metal-organic frameworks ...

Supported by a grant from the W. M. Keck Foundation, Mahdi Hosseini and Selim Shahriar aim to build and test an ultra-sensitive optomechanical system to determine whether quantum mechanics is linear ...

Metal-organic frameworks (MOFs) are characterized by high porosity and structural versatility. They have enormous potential, for example, for applications in electronics. However, their low electrical ...