Majorana 1 relies on ‘topological superconductivity,’ a never-before-seen theoretical form of matter.

It has taken 20 years of development, but researchers now have a device that can scale to millions of qubits without errors ...

The approach, called the Beryllium Electron capture in Superconducting Tunnel junctions experiment (BeEST) works because the ...

Physicists measure the mass of subatomic particles in units called electron volts, or eV. According to theory, the W boson ...

More than thirty might be present! A particle created by physicists transcends dimensions. A change in space and reality for ...

The short answer is; no. We will never see atoms using visible light, simply because the wavelength of visible light (around 400 to 700 nanometers) is larger than the size of an atom (around 0.1 to ...

Researchers have discovered that superconducting nanowire photon detectors can also be used as highly accurate particle detectors, and they have found the optimal nanowire size for high detection ...

But here we can demonstrate entanglement between two massive objects," said co-first author Ming-Han Chou, a former UChicago ...

Switzerland, home to the European Organisation for Nuclear Research (Cern), the largest particle physics laboratory in the world, is well represented in the ranking, with nine institutions overall.

Lose yourself in the best space books out there as we round up the pick of the out-of-this-world reading material across an array of categories. We've rounded up the best space books currently ...