Sculpting noise with dynamical bias
Photonic qubits have the great advantage that they don’t easily interact with their environment and hence are intrinsically less noisy than many other qubit types…
Modular decoding: Scaling up by breaking down
There’s an unsung impasse currently facing commercially useful fault-tolerant quantum computers. Useful quantum computers rely on quantum error-correcting codes that redundantly encode otherwise delicate logical information into a much larger system of physical qubits….
Fault-tolerant resource estimate for quantum chemical simulations: Case study on Li-ion battery electrolyte molecules (arXiv.org)
In this article, we estimate the cost of simulating electrolyte molecules in Li-ion batteries on a fault-tolerant quantum computer, focusing on the molecules that can provide practical solutions to industrially relevant problems.
Author: Kim et al. - Published: Apr 21, 2021
All authors: Isaac H. Kim, Eunseok Lee, Ye-Hua Liu, Sam Pallister, William Pol, Sam Roberts
Fusion Based Quantum Computing (FBQC)
We’re excited that our work on Fusion Based Quantum Computing (FBQC) has recently been published in nature communications…