Our intuition tells us that it should be impossible to see whether two identical objects have been swapped back and forth, and for all particles observed to date, that has been the case. Until now.
What exactly are anyons and how are they relevant to topological quantum computing? - Quantum Computing Stack Exchange
Non-Abelian braiding of graph vertices in a superconducting processor
A new phase of matter: Physicists achieve first demonstration of non-Abelian anyons in a quantum processor
Michele Burrello - Fibonacci Anyons and Topological Quantum Computation, PDF, Quantum Mechanics
Christian Gogolin on LinkedIn: Pushing the boundaries of NISQ with
Condensed Matter Physics – Page 2 – sciencesprings
The Threat and Promise of Artificial Intelligence - Edward Conard
Physicists take step toward fault-tolerant quantum computing
Entangled state of anyon-encoded logical qubits by means of braiding.
Graph gauge theory of mobile non-Abelian anyons in a qubit stabilizer code - ScienceDirect
Google Quantum AI
Daniel Lis en LinkedIn: Google Quantum AI braids non-Abelian
Graph gauge theory of mobile non-Abelian anyons in a qubit stabilizer code - ScienceDirect
Cornell, Google first to detect key to quantum computing future
Quantum Computing News - Page 5 of 25 - SciTechDaily
