U.K., Korea, and Japan Collaborate on Quantum Mechanical Electron Wave Control Ultrafast quantum motion in a nanoscale trap detected Selected notes ~ + KAIST researchers
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
Observing, Controlling, and Characterizing Dark Trions = Quantum Information Transport Move aside, electrons; it’s time to make way for the trion. Excerpts and salient points
Yale: Predicting Schrodinger’s Cat Physicists can predict the jumps of Schrödinger’s cat (and finally save it) Yale researchers have figured out how to catch and
Ultra-Quantum Matter Studies Receive Funding Full release from the Chicago Quantum Exchange ~ May 28th, 2019 Dam T. Son, University Professor in the Department of
Two-Cavity System Generates High-Quality Single Photons Efficiently A new dual-cavity design for a quantum emitter, from the Massachusetts Institute of Technology (MIT), emits more high-quality
Quantum Physicists Pouring Photon Schnapps. A Still for Light Quanta. An atom in a cavity extracts highly pure single photons from weak laser light. Quantum
Needs or Wants: Quantum Data Analyst. Fast forward to 2050, quantum computing is here (because quantum is coming). The industry is rapidly changing, the world
Micius Quantum Prize for 2018 Goes to Peter Shor. Peter Shor, the Morss Professor of Applied Mathematics at MIT, has received the2018 Micius Quantum Prize,
Majorana time crystals and non-Abelian anyons have been shown to be ‘braidable’, sharing attributes of each to establish a method for transferring quantum information. The study, conducted by physicists at the University of Singapore, shows that by increasing the temporal dimension of the braid system and by manipulating increased Majorana particle modes, fewer physical devices and the accoutrements are needed to produce desired results. The long-term vision is to produce a physically smaller and less complex quantum computing system architecture.
