Author

D. Stack

results may include different authors with the same name

5 papers

Iterative assembly of $^{171}$Yb atom arrays with cavity-enhanced optical lattices

Assembling and maintaining large arrays of individually addressable atoms is a key requirement for continued scaling of neutral-atom-based quantum computers and simulators. In this work, we demonstrate a new paradigm for assembly of atomic…

Quantum Physics · Physics 2024-06-21 M. A. Norcia , H. Kim , W. B. Cairncross , M. Stone , A. Ryou , M. Jaffe , M. O. Brown , K. Barnes , P. Battaglino , T. C. Bohdanowicz , A. Brown , K. Cassella , C. -A. Chen , R. Coxe , D. Crow , J. Epstein , C. Griger , E. Halperin , F. Hummel , A. M. W. Jones , J. M. Kindem , J. King , K. Kotru , J. Lauigan , M. Li , M. Lu , E. Megidish , J. Marjanovic , M. McDonald , T. Mittiga , J. A. Muniz , S. Narayanaswami , C. Nishiguchi , T. Paule , K. A. Pawlak , L. S. Peng , K. L. Pudenz , D. Rodriguez Perez , A. Smull , D. Stack , M. Urbanek , R. J. M. van de Veerdonk , Z. Vendeiro , L. Wadleigh , T. Wilkason , T. -Y. Wu , X. Xie , E. Zalys-Geller , X. Zhang , B. J. Bloom

Mid-circuit qubit measurement and rearrangement in a $^{171}$Yb atomic array

Measurement-based quantum error correction relies on the ability to determine the state of a subset of qubits (ancillae) within a processor without revealing or disturbing the state of the remaining qubits. Among neutral-atom based…

Quantum Physics · Physics 2024-02-13 M. A. Norcia , W. B. Cairncross , K. Barnes , P. Battaglino , A. Brown , M. O. Brown , K. Cassella , C. -A. Chen , R. Coxe , D. Crow , J. Epstein , C. Griger , A. M. W. Jones , H. Kim , J. M. Kindem , J. King , S. S. Kondov , K. Kotru , J. Lauigan , M. Li , M. Lu , E. Megidish , J. Marjanovic , M. McDonald , T. Mittiga , J. A. Muniz , S. Narayanaswami , C. Nishiguchi , R. Notermans , T. Paule , K. Pawlak , L. Peng , A. Ryou , A. Smull , D. Stack , M. Stone , A. Sucich , M. Urbanek , R. van de Veerdonk , Z. Vendeiro , T. Wilkason , T. -Y. Wu , X. Xie , X. Zhang , B. J. Bloom

A high fidelity light-shift gate for clock-state qubits

To date, the highest fidelity quantum logic gates between two qubits have been achieved with variations on the geometric-phase gate in trapped ions, with the two leading variants being the Molmer-Sorensen gate and the light-shift (LS) gate.…

Quantum Physics · Physics 2021-01-13 C. H. Baldwin , B. J. Bjork , M. Foss-Feig , J. P. Gaebler , D. Hayes , M. G. Kokish , C. Langer , J. A. Sedlacek , D. Stack , G. Vittorini

Eliminating Leakage Errors in Hyperfine Qubits

Population leakage outside the qubit subspace presents a particularly harmful source of error that cannot be handled by standard error correction methods. Using a trapped $^{171}$Yb$+$ ion, we demonstrate an optical pumping scheme to…

Quantum Physics · Physics 2020-05-06 D. Hayes , D. Stack , B. Bjork , A. C. Potter , C. H. Baldwin , R. P. Stutz

Subspace benchmarking high-fidelity entangling operations with trapped ions

We present a new and simplified two-qubit randomized benchmarking procedure that operates only in the symmetric subspace of a pair of qubits and is well suited for benchmarking trapped-ion systems. By performing benchmarking only in the…

Quantum Physics · Physics 2020-03-25 C. H. Baldwin , B. J. Bjork , J. P. Gaebler , D. Hayes , D. Stack