Probing the Inner Workings of High-Fidelity Quantum Processors
QSA-funded researchers at Sandia National Laboratories use gate set tomography to discover and validate a silicon qubit breakthrough
QSA-funded researchers at Sandia National Laboratories use gate set tomography to discover and validate a silicon qubit breakthrough
Leading breakthroughs in atomic clocks at QSA partner institutions and collaborators.
A year in review of some of the many scientific breakthroughs led by QSA partner institutions and aided by the interdisciplinary and collaborative nature of QSA’s topical groups
Sandia National Labs - QSA's lead partner - leading the breakthroughs in gate set tomography to develop and validate highly reliable quantum processors. These findings and innovations published at Nature have been funded in part by QSA.
With multiple avenues explored in the quantum science endeavor, QSA’s technology coordinator helps Center leadership see the big picture and advises on new approaches. QSA’s technology coordinator William D. Oliver discusses his perspectives about the importance of advancing quantum engineering for the field.
The National Quantum Information Science Research Centers Executive Council briefed the Department of Energy Basic Energy Sciences Advisory Committee on December 6, 2021
This work was supported by the Quantum Systems Accelerator. Harvard-led researchers document presence of quantum spin liquids, a never-before-seen state of matter.
The Quantum Systems Accelerator is opening exciting opportunities in quantum information science & technology for researchers. Meet QSA's early career researchers at the University of Colorado Boulder, a QSA partner institution, and JILA.
QSA leadership and researchers at the University of California, Berkeley were featured in the fall 2021 edition of Berkeley Physics.
QSA-funded research at the University of Colorado Boulder - a QSA partner institution - and JILA was featured at Quanta Magazine this October 2021.
QSA participated in a conversation on September 3rd 2021 at the White House Office of Science and Technology Policy (OSTP).
QSA scientists study sophisticated two-dimensional (2D) materials that could potentially increase the coherence time of qubits in superconducting circuits.