Tapping into hidden resources in trapped atom quantum processors

Wesley C Campbell

Tapping into hidden resources in trapped atom quantum processors

ORAL · Invited

Abstract

When employing atoms for quantum information (QI) applications, it is often tempting to abstract them into faceless qubits with two (and only two) levels. However, despite the early and frankly understandable belief that complex atoms are too unwieldy to pursue seriously for hosting qubits, we have reached a point where building QI platforms from multilevel atoms is feasible. I will discuss some of the ways we have begun to utilize metastable beyond-qubit states in trapped ion qubits and how those capabilities can boost the capabilities of existing trapped-atom-based quantum processors and simulators.

June 2, 2022, 11:00 AM – June 2, 2022, 11:30 AM

Publication: Wesley C. Campbell. Certified quantum gates. Phys. Rev. A 102, 022426 (2020)<br>D. T. C. Allcock, W. C. Campbell, J. Chiaverini, I. L. Chuang, E. R. Hudson, I. D. Moore, A. Ransford, C. Roman, J. M. Sage, and D. J. Wineland. omg Blueprint for trapped ion quantum computing with metastable states. Appl. Phys. Lett. 119, 214002 (2021)<br>Anthony Ransford, Conrad Roman, Thomas Dellaert, Patrick McMillin, and Wesley C. Campbell. Weak dissipation for high fidelity qubit state preparation and measurement. Phys. Rev. A 104, L060402 (2021)

Presenters

Wesley C Campbell

UCLA, University of California, Los Angeles, Department of Physics and Astronomy, University of California, Los Angeles

Authors

Wesley C Campbell

UCLA, University of California, Los Angeles, Department of Physics and Astronomy, University of California, Los Angeles