W. J. Setzer scite author profile

We report on the first demonstration of fluorescence detection using single-photon avalanche photodiodes (SPADs) monolithically integrated with a microfabricated surface ion trap. The SPADs are positioned below the trapping positions of the ions, and designed to detect 370 nm photons emitted from single 174 Yb + and 171 Yb + ions. We achieve an ion/no-ion detection fidelity for 174 Yb + of 0.99 with an average detection window of 7.7(1) ms. We report a dark count rate as low as 1.2 kHz at room temperature operation. The fidelity is limited by laser scatter, dark counts, and heating that prevents holding the ion directly above the SPAD. We measure count rates from each of the contributing sources and fluorescence as a function of ion position. Based on the active detector area and using the ion as a calibrated light source we estimate a SPAD quantum efficiency of 24±1%.

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Rotational-state-selective field ionization of H2 Rydberg states

Setzer

Magalhaes

Morgan

2020

Phys. Rev. A

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Integrated photonics for trapped ion quantum information experiments at Sandia National Laboratories

McGuinness

Gehl

Hogle

et al. 2022

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As trapped ion systems add more ions to allow for increasingly sophisticated quantum processing and sensing capabilities, the traditional optical-mechanical laboratory infrastructure that make such systems possible are in some cases the limiting factor in further growth of the systems. One promising solution is to integrate as many, if not all, optical components such as waveguides and gratings, single-photon detectors, and high extinction ratio optical switches/modulators either into ion traps themselves or into auxiliary devices that can be easily integrated with ion traps. Here we report on recent efforts at Sandia National Laboratories to include integrated photonics in our surface ion trap platforms.

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Rydberg-electron decoherence in experimentally obtained recurrence spectra

2010

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W. J. Setzer

Integrated Optical Addressing of a Trapped Ytterbium Ion

Fluorescence detection of a trapped ion with a monolithically integrated single-photon-counting avalanche diode

Rotational-state-selective field ionization of H2 Rydberg states

Integrated photonics for trapped ion quantum information experiments at Sandia National Laboratories

Rydberg-electron decoherence in experimentally obtained recurrence spectra

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