Creating an Echo Chamber for Quantum Information Systems Scientists Pave the Way for Quantum Computing by Coupling Magnetization to Superconductivity Excerpts and salient points ~
Quantum Information Storage via Magnetic Skyrmions and Spintronics Understanding how electric current affects the magnetic skyrmion changes Key points… + Matter behaves differently when it’s
Controlling Superconducting Materials with “Pairing Glue” What is the pairing “glue” for electrons in iron-based high-temperature superconductors? Scientists now have more clues. Excerpts and salient
Using Gold to Better Quantum Computing System Bits: July 3; Team touts gold as quantum computing material Excerpts and salient points ~ + A joint
Move Over Helium-3… Using Magnetism to Cool Quantum Computers Cooling for quantum electronics The start-up kiutra is the first company in the world to have
Moving the Needle On Nanoscale Imaging with Single-Molecule Magnets (American Association for the Advancement of Science) Amid intense research focus on magnetic single atoms and
Superconductivity from Kagome Lattice; ‘Flat Band’ Electrons. Princeton University scientists, using the latest in scanning tunneling microscopy and spectroscopy (STM/S) to study electron behaviors in
“Spin Currents” Studied for Their Significant Performance Improvements. Generating spin-currents without energy loss from materials exhibiting the Rashba-Bychkov effect. “From faster memories to quantum computers, the
Graphene is being more thoroughly studied for use as a fundamental component to quantum computers.
Silicon-based qubits have spin-orbits which are manipulated with magnetic fields more readily than other means available. Designers from the University of Wisconsin-Madison created the experimental device, based on silicon. Research scientists from Purdue University and the Technological University of Delft conducted the experimentation. The spin-orbit strength was found to be dependent on magnetic fields from external sources coupled with the silicon surface material; where qubits reside as quantum dots.
