Ytterbium Ion Qubits for Quantum Information Processing

Steven Olmschenk; Dzmitry Matsukevich; Peter Maunz; David Moehring; Kelly Younge; Chris Monroe

Ytterbium Ion Qubits for Quantum Information Processing

ORAL

Abstract

We present trapped ytterbium ions as quantum bits for quantum information processing. The viability of this atomic ion as a qubit is demonstrated through high-fidelity state initialization and detection of the first-order magnetic field-insensitive hyperfine ``clock'' states, with a measured coherence time of at least 2.5 seconds. The simple atomic structure, large fine and hyperfine splittings, and transition wavelengths that facilitate the use of optical fibers, may allow for the implementation of a variety of quantum information processing schemes. In addition, we present improved measurements of the ${}^2P_{1/2}$ excited state lifetime and branching ratio into ${}^2D_{3/2}$.

^*This work is supported by IARPA under ARO contract W911NF-04-1-0234 , the DARPA OLE Program under ARO Award W911NF-07-1-0576, and the NSF PIF Program under grant PHY-0601255.

May 28, 2008, 3:36 PM – May 28, 2008, 3:48 PM

Authors

Steven Olmschenk
- JQI and Department of Physics, University of Maryland
Dzmitry Matsukevich
- JQI and Department of Physics, University of Maryland
Peter Maunz
- JQI and Department of Physics, University of Maryland
David Moehring
- JQI and Department of Physics, University of Maryland
- Max-Planck-Institute for Quantum Optics
- FOCUS and Department of Physics, University of Michigan
- University of Michigan
Kelly Younge
- University of Michigan
- FOCUS and Department of Physics, University of Michigan
Chris Monroe
- JQI and Department of Physics, University of Maryland
- University of Maryland