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quantum interference News
Graph-Based Photonic Device Holds Key for Quantum Applications
BEIJING, June 23, 2023 — Collaborating researchers from Asia, Australia, and Europe developed a prototype of a graph-based quantum photonic device. The researchers based their architecture on the very large-scale integration (VLSI) of silicon quantum photonics to devise what they said is the largest-scale integrated quantum photonic device to date. VLSI quantum photonics refers to the integration of quantum photonic devices on a very large scale. The development of a reconfigurable, graph-based quantum device on
Quantum Interference Observed Using UV-Light Spectroscopy
BREISGAU, Germany, Feb. 19, 2020 — A research team led by Frank Stienkemeier and Lukas Bruder from the Institute of Physics at the University of Freiburg observed real-time ultrafast quantum interferences, or oscillation patterns, of electrons in the atomic shells of rare gas atoms....
Quantum Interference Enables Constant-Time Quantum Information Processing
WARSAW, Poland, July 23, 2019 — Quantum interference can be used to process large data sets quickly and accurately, according to a study done by the University of Warsaw, in collaboration with the University of Oxford and NIST. The researchers showed that a simple quantum gate,...
Plasmons Show Useful Quantum Properties
PASADENA, Calif., April 4, 2014 — Surface plasmons could be a key piece of the ever-evolving quantum computing puzzle.
Quantum interference fine-tuned by Berry phase
BRISTOL, UK – A three-decades-old formula for phase shifting has been used to accurately control quantum interference between atoms, paving the way for fault-tolerant circuits in photonic quantum simulators. Photonic quantum simulators, systems of photons...
Quantum Interference Fine-Tuned by Berry Phase
BRISTOL, England, July 10, 2012 — A three-decades-old formula for phase shifting has been used to accurately control quantum interference between atoms, paving the way for fault-tolerant circuits in photonic quantum simulators.
Light Scattering Controlled in Graphene
BERKELEY, Calif., March 21, 2011 — Controlling the way light is scattered in graphene has been achieved, providing a new tool for the study of these single sheets of carbon that may lead to practical applications for controlling light and electronic states in nanometer-scale devices...
Fabricating Photonic Quantum Circuits in Silicon
Jul 1, 2008 — The future of quantum technologies could be written in sand, according to researchers from the University of Bristol in the UK. A group at the institution demonstrated high-fidelity quantum photonic circuits using waveguides made of silicon dioxide,...
Graphene Provides Foundation for New Electronics
ATLANTA, April 19, 2006 -- A study of how electrons behave in circuitry made from ultrathin layers of graphite – known as graphene – suggests the material could provide the foundation for a new generation of nanometer-scale devices that manipulate electrons as waves, much...
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May 2024
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