Do you Like Cats? Yale Researchers Think They Could Save Schrödinger’s Physicists can predict the jumps of Schrödinger’s cat (and finally save it) Read More…
Quantum Dots, Qubits, and Artificial Intelligence to Create Them Automatically Well done piece, very descriptive, and best of all… in layperson’s terms. Recommend reading straight
There’s a Lot to Topological Materials and the Application to Quantum Computing Randomized measurements reveal topological quantum states Key points… + Topological materials – materials
New Possibilities for Topological Superconductivity Lossless conduction at the edges Excerpts and salient points ~ Image: Schematic diagram of the experimental setup: An atomically thin
Estimating Amount of Coherence in Quantum States Direct estimation of quantum coherence by collective measurements Abstract + The recently established resource theory of quantum coherence
Columbia University Engineers Find Way to Reduce Size, Cost of Quantum Computing Isolators and Circulators “One-Way” Electronic Devices Enter the Mainstream Microphotograph of the Columbia
Entangling Atoms With Molecules Could Lead to Manipulation, Storage, and Transmission of Data at the Quantum Level NIST Team Builds Hybrid Quantum System by Entangling
Research: Topological Excitations on Commercial Circuit Boards Possible, and Simple, and Reconfigurable, and Highly Controllable 4-D electric circuit network with topology Points to note… +
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
TU Dresden Superconductor and Magnetic Field Research Could Lead to New Applications in Quantum Computing Superconductors with ‘zeitgeist’ – when materials differentiate between the past
