J.-P. Stacey scite author profile

We present studies of resonance-enhanced photoionization for isotope-selective loading of Ca ϩ into a Paul trap. The 4s 2 1 S 0 ↔4s4p 1 P 1 transition of neutral calcium is driven by a 423 nm laser and the atoms are photoionized by a second laser at 389 nm. Isotope selectivity is achieved by using crossed atomic and laser beams to reduce the Doppler width significantly below the isotope shifts in the 423 nm transition. The loading rate of ions into the trap is studied under a range of experimental parameters for the abundant isotope 40 Ca ϩ . Using the fluorescence of the atomic beam at 423 nm as a measure of the Ca number density, we estimate a lower limit for the absolute photoionization cross section of 170͑60͒ Mb. We achieve loading and laser cooling of all the naturally occurring isotopes, without the need for enriched sources. Laser heating/cooling is observed to enhance the isotope selectivity. In the case of the rare species 43 Ca ϩ and 46 Ca ϩ , which have not previously been laser cooled, the loading is not fully isotope selective, but we show that pure crystals of 43 Ca ϩ may nevertheless be obtained. We find that for loading 40 Ca ϩ the 389 nm laser may be replaced by an incoherent source.

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Search for correlation effects in linear chains of trapped Ca ⁺ ions

Donald

Lucas

Barton

et al. 2000

Europhys. Lett.

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We report a precise search for correlation effects in linear chains of 2 and 3 trapped Ca + ions. Unexplained correlations in photon emission times within a linear chain of trapped ions have been reported, which, if genuine, cast doubt on the potential of an ion trap to realize quantum information processing. We observe quantum jumps from the metastable 3d 2 D 5/2 level for several hours, searching for correlations between the decay times of the different ions. We find no evidence for correlations: the number of quantum jumps with separations of less than 10 ms is consistent with statistics to within errors of 0.05%; the lifetime of the metastable level derived from the data is consistent with that derived from independent single-ion data at the level of the experimental errors (1%); and no rank correlations between the decay times were found with sensitivity to rank correlation coefficients at the level of |R| = 0.024.

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High-Efficiency Detection of a Single Quantum of Angular Momentum by Suppression of Optical Pumping

McDonnell

Stacey²,

Webster³

et al. 2004

Phys. Rev. Lett.

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We propose and demonstrate experimentally the discrimination between two spin states of an atom purely on the basis of their angular momentum. The discrimination relies on angular momentum selection rules and does not require magnetic effects such as a magnetic dipole moment of the atom or an applied magnetic field. The central ingredient is to prevent by coherent population trapping an optical pumping process which would otherwise relax the spin state before a detectable signal could be obtained. We detected the presence or absence of a single quantum (h) of angular momentum in a trapped calcium ion in a single observation with success probability 0.86. As a practical technique, the method can be applied to read out some types of quantum computer.

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Oxford ion-trap quantum computing project

Lucas

Donald

Home

et al. 2003

Philosophical Transactions of the Royal Society of London. Seri

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J.-P. Stacey

Isotope-selective photoionization for calcium ion trapping

Search for correlation effects in linear chains of trapped Ca ⁺ ions

High-Efficiency Detection of a Single Quantum of Angular Momentum by Suppression of Optical Pumping

Oxford ion-trap quantum computing project

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J.-P. Stacey

Isotope-selective photoionization for calcium ion trapping

Search for correlation effects in linear chains of trapped Ca + ions

High-Efficiency Detection of a Single Quantum of Angular Momentum by Suppression of Optical Pumping

Oxford ion-trap quantum computing project

Contact Info

Product

Resources

About

Search for correlation effects in linear chains of trapped Ca ⁺ ions