Demonstration of three- and four-body interactions between trapped-ion spins

Or Katz; Lei Feng; Andrew Risinger; Christopher Monroe; Marko Cetina

Demonstration of three- and four-body interactions between trapped-ion spins

ORAL

Abstract

Quantum processors use the native interactions between effective spins to simulate Hamiltonians or execute quantum gates. In most processors, the native interactions are pairwise, limiting the efficiency of controlling entanglement between many qubits. Here we experimentally demonstrate a new class of native interactions between trapped-ion qubits, extending conventional pairwise interactions to higher order. We realize three- and four-body spin interactions as examples, showing that high-order spin polynomials may serve as a new toolbox for quantum information applications.

March 22, 2023, 1:48 PM – March 22, 2023, 2:00 PM

Publication: O. Katz, L. Feng, A. Risinger, C. Monroe, M. Cetina, arXiv:2209.05691 (2022).<br>O. Katz, M. Cetina, C. Monroe, arxiv:2207.10550 (2022).<br>O. Katz, M. Cetina, C. Monroe, Phys. Rev. Lett. 129, 063603 (2022).

Presenters

Or Katz

Duke Quantum Center and Department of Electrical and Computer Engineering (and Physics), Duke University, Durham, NC, Duke University, Duke Quantum Center and Department Electrical and Computer Engineering (and Physics), Duke University, Durham, NC

Authors

Or Katz

Duke Quantum Center and Department of Electrical and Computer Engineering (and Physics), Duke University, Durham, NC, Duke University, Duke Quantum Center and Department Electrical and Computer Engineering (and Physics), Duke University, Durham, NC
Lei Feng

Duke Quantum Center and Department of Electrical and Computer Engineering (and Physics), Duke University, Durham, NC, Duke University, DQC, Department of ECE and Physics,Duke University
Andrew Risinger

JQI and QuICS and Departments of Physics and ECE, University of Maryland, College Park, MD 20742
Christopher Monroe

Duke Quantum Center and Department of Electrical and Computer Engineering (and Physics), Duke University, Durham, NC; IonQ, Inc., College Park, MD 20740, Duke University, Duke Quantum Center and Department of Electrical and Computer Engineering (and Physics), Duke University, Durham, NC; IonQ, Inc., College Park, MD, Duke Quantum Center; Duke Physics & Electrical and Computer Engineering; Joint Quantum Institute; University of Maryland, College Park; IonQ, Duke University and IonQ, Inc., Duke Quantum Center; Duke Physics; Duke Electrical and Computer Engineering; Joint Quantum Institute; University of Maryland, College Park; IonQ
Marko Cetina

Duke Quantum Center and Department of Physics, Duke University, Durham, NC, Duke University