New Quantum Dots Design for Solotronics
Researchers at the University of Warsaw have created and studied two new types of solotronic structures, including the world’s first quantum dots containing single cobalt…
Researchers at the University of Warsaw have created and studied two new types of solotronic structures, including the world’s first quantum dots containing single cobalt…
A team of researchers has discovered that sodium bismuthate can exist as a form of quantum matter called a three-dimensional topological Dirac semi-metal (3DTDS), a…
By heating molybdenum and selenium in a vacuum chamber until they evaporated, a team of scientists was able to create an exotic thin film with…
In a newly published study, an international team of researchers detail how they used an ensemble of phosphorous-31 donors in isotopically purified silicon-28 to demonstrate…
Researchers from Karlsruhe Institute of Technology have made a big step towards a single-atom bit, showing that the magnetic moments of single holmium atoms on…
A team of scientists has discovered a new asymmetric topological insulator made of many layers of BiTeCl, which enables electrical current to flow differently along…
In a newly published study, EPFL scientists have for the first time predicted and experimentally verified the existence of the Magnetic Seebeck Effect. EPFL scientists…
New research from the Brookhaven National Laboratory has revealed that magnetic excitations, quantum waves believed by many to regulate high-temperature superconductors, exist in both non-superconducting…
By placing nanometer sized quantum dots of gold across on the tops of the boron nitride nanotubes, researchers at Michigan Tech created a quantum-tunneling device…
Scientists from the University of Manchester have shown for the first time that magnetic clouds in graphene can be controllably dissipated and then condensed back,…
Researchers look to improve magnetic memory by controlling spin orientation in magnetic nanodisks. Research at the Advanced Light Source promises four-bit magnetic cells instead of…
UC Santa Barbara researchers developed an all-optical scheme for controlling individual quantum bits in semiconductors using pulses of light, opening up new paths toward the…
In a newly published study, researchers at UCLA demonstrate how to add power to a spintronics device by harnessing excess heat and converting it for…
A newly published study looks at recent advances in quantum measurements, coherent control, and the generation of entangled states, while describing some of the challenges…
Engineers at the University of Utah are the first to demonstrate organic topological insulators, organic materials that conduct electricity on their molecular edges, but act…
Researchers at the University of Cambridge have created a new type of microchip that allows information to move in three dimensions, left to right, back…
Using a new technique called HARPES, a team of scientists look to uncover the origin of the ferromagnetism in dilute magnetic semiconductors. Spintronic technology, in…
A newly published study details how MIT scientists create and detect spin-orbit coupling in an atomic Fermi gas, a highly controllable form of quantum degenerate…