High-fidelity ion-trap quantum computing with hyperfine clock states

Details High-fidelity ion-trap quantum computing with hyperfine clock states High-fidelity ion-trap quantum computing with hyperfine clock states

2007-07-26

arxiv.org/abs/0707.3916v5

Phys. Rev. A 76, 040303(R) 2007

Physics

Quantum Physics

4 pages, 1 figure

Scientific paper

10.1103/PhysRevA.76.040303

We propose the implementation of a geometric-phase gate on magnetic-field-insensitive qubits with $\hat{\sigma}^z$-dependent forces for trapped ion quantum computing. The force is exerted by two laser beams in a Raman configuration. Qubit-state dependency is achieved by a small frequency detuning from the virtually-excited state. Ion species with excited states of long radiative lifetimes are used to reduce the chance of a spontaneous photon emission to less than 10$^{-8}$ per gate-run. This eliminates the main source of gate infidelity of previous implementations. With this scheme it seems possible to reach the fault tolerant threshold.

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