Imagine detecting a single trillionth of a gram of a molecule—like an amino acid—using just electricity and a chip smaller than your fingernail. That’s the power of a new quantum-enabled biosensor ...

In the world of quantum mechanics, particles can behave like waves. This wave-like nature is crucial for understanding quantum tunnelling. Imagine a tiny particle, like an electron, approaching a hill ...

Tunneling is a pivotal phenomenon in quantum physics, underpinning an exceptionally broad range of applications. It plays a major role in nuclear fusion 1, facilitates ionization under the influence ...

Theoretical studies discover quantum momentum tunnelling between liquid flows separated by nanometre-thick graphene layers via the interaction between molecular dipole excitations and plasmons.

Transmission electron microscope image and film stack of a magnetic tunnel junction with a multilayered ferromagnetic structure. Interfacial anisotropy is enhanced by increasing the number of ...