Researchers have tried for years to integrate manganese into these dots because of its optical and magnetic traits. Earlier ...

Physicists have now teleported the quantum state of a single photon between distant quantum dots, turning a long theorized ...

With the successful introduction of manganese into perovskite nanoparticles, researchers have 'doped the undopable'.

For a future quantum internet to work, scientists need to perfect a quantum repeater that can send information over long ...

A sub-class of Si spin qubits uses metal-oxide-semiconductor (MOS) quantum dots to confine the electrons, a structure that ...

A team of University of Oklahoma materials scientists has done what many in the field thought impossible: magnetize quantum dots by ...

Physicists successfully teleport quantum information between photons from different sources, a key step towards a secure ...

Colloidal quantum dots are solution-based nanocrystals prized for their unique light-harvesting abilities. They can illuminate, create color, harness solar energy and function as semiconductors. These ...

Using a technique known as a Bell state measurement, the team interfered one photon from the entangled pair with the photon from the first quantum dot. This caused the information encoded in the first ...

A research team led by Professors Yang Ji-woong and In Su-il of the Department of Energy Science and Engineering at DGIST (President Kunwoo Lee), through joint research with Dr. Ahn Hyung-joo of ...

An international research team involving Paderborn University has achieved a crucial breakthrough on the road to a quantum ...