Rice University’s RAMBO, Spintronics Research May Advance Quantum Memory
Odd angles make for strong spin-spin coupling Rice physicists’ RAMBO reveals magnetic phenomenon useful for quantum simulation and sensing Sometimes things are a little out of
Odd angles make for strong spin-spin coupling Rice physicists’ RAMBO reveals magnetic phenomenon useful for quantum simulation and sensing Sometimes things are a little out of
Theory accelerates push for spintronic devices Rice models help ID materials for advanced electronics, computer memories A new theory by Rice University scientists could boost
Odds are good for unique 2D compound Engineers at Rice University and Texas A&M University have found a 2D material that could make computers faster
Building Fault-Tolerant Quantum Computers With 3D Topological Materials to Assist Quantum Hall effect ‘reincarnated’ in 3D topological materials 2D order protects several entangled states that
U.S. and Austrian Research Team Finds Inumerable Entangled Electrons in Material Composed of Ytterbium, Rhodium, and Silicon Billions of quantum entangled electrons found in ‘strange
Exotic, Fundamental, Fractionalized; Promising use in Quantum Computing. Rice University. Rice university physicists Matthew Foster and Seth Davis want to view a vexing quantum puzzle
Quantum computer systems are ‘buggy’. Their very nature requires immense cycles of validation. Rice University computer scientists believe their algorithm, Projected Factored Gradient Decent (ProjFGD), reduces the number of measurements many-fold.
Scientists at Rice University have built on their experience with binding photons and excitons as evidenced in a 2016 report on their accomplishments. This has translated into more recent research in which the weak and strong link between these two has been found to be tunable. In this report, details are presented which allude to the ability to create quantum-based data storage.