A Jordan-Wigner gadget that reduces T count by more than 6x for quantum chemistry applications
Quantum computers have the potential to be a profoundly transformative technology, particularly in the context of quantum chemistry. However, running a chemistry application that is demonstrably useful currently requires a prohibitive number of logical operations.
Author: Sam Pallister - Published: Apr 10, 2020
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