Your search keyword '"Vittorini, Grahame"' showing total 11 results

1. Scalable Multispecies Ion Transport in a Grid Based Surface-Electrode Trap

Author

Delaney, Robert D., Sletten, Lucas R., Cich, Matthew J., Estey, Brian, Fabrikant, Maya, Hayes, David, Hoffman, Ian M., Hostetter, James, Langer, Christopher, Moses, Steven A., Perry, Abigail R., Peterson, Timothy A., Schaffer, Andrew, Volin, Curtis, Vittorini, Grahame, and Burton, William Cody

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

We present a scalable method for the control of ion crystals in a grid-based surface electrode Paul trap and characterize it in the context of transport operations that sort and reorder multispecies crystals. By combining co-wiring of control electrodes at translationally symmetric locations in each grid site with the site-wise ability to exchange the voltages applied to two special electrodes gated by a binary input, site-dependent operations are achieved using only a fixed number of analog voltage signals and a single digital input per site. In two separate experimental systems containing nominally identical grid traps, one using $^{171}\mathrm{Yb}^{+}$-$^{138}\mathrm{Ba}^{+}$ crystals and the other $^{137}\mathrm{Ba}^{+}$-$^{88}\mathrm{Sr}^{+}$, we demonstrate this method by characterizing the conditional intra-site crystal reorder and the conditional exchange of ions between adjacent sites on the grid. Averaged across a multi-site region of interest, we measure sub-quanta motional excitation in the axial in-phase and out-of-phase modes of the crystals following these operations at exchange rates of 2.5 kHz. These conditional transport operations display all necessary components for sorting qubits, and could be extended to implement other conditional operations involving control fields such as gates, initialization, and measurement., Comment: 11 pages, 7 figures

Published

2024

2. High fidelity state preparation and measurement of ion hyperfine qubits with I > 1/2

Author

An, Fangzhao Alex, Ransford, Anthony, Schaffer, Andrew, Sletten, Lucas R., Gaebler, John, Hostetter, James, and Vittorini, Grahame

Subjects

Quantum Physics

Abstract

We present a method for achieving high fidelity state preparation and measurement (SPAM) using trapped ion hyperfine qubits with nuclear spins higher than $I = 1/2$. The ground states of these higher nuclear spin isotopes do not afford a simple frequency-selective state preparation scheme. We circumvent this limitation by stroboscopically driving strong and weak transitions, blending fast optical pumping using dipole transitions and narrow microwave or optical quadrupole transitions. We demonstrate this method with the $I=3/2$ isotope $^{137}\mbox{Ba}^+$ to achieve a SPAM infidelity of $\left(9.0 \pm 1.3\right) \times 10^{-5}$ ($-40.5 \pm 0.6$ dB), facilitating the use of a wider range of ion isotopes with favorable wavelengths and masses for quantum computation., Comment: 5 pages, 4 figures

Published

2022

3. Modulating carrier and sideband coupling strengths in a standing wave gate beam

Author

deLaubenfels, Thomas E., Burkhardt, Karl A., Vittorini, Grahame, Merrill, J. True, Brown, Kenneth R., and Amini, Jason M.

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

We control the relative coupling strength of carrier and first order motional sideband interactions of a trapped ion by placing it in a resonant optical standing wave. Our configuration uses the surface of a microfabricated chip trap as a mirror, avoiding technical challenges of in-vacuum optical cavities. Displacing the ion along the standing wave, we show a periodic suppression of the carrier and sideband transitions with the cycles for the two cases $180^\circ$ out of phase with each other. This technique allows for suppression of off-resonant carrier excitations when addressing the motional sidebands, with applications in quantum simulation and quantum control. Using the standing wave fringes, we measure the relative ion height as a function of applied electric field, allowing for a precise measurement of ion displacement and, combined with measured micromotion amplitudes, a validation of trap numerical models., Comment: 5 pages, 4 figures

Published

2015

4. High Fidelity State Preparation and Measurement of Ion Hyperfine Qubits with I>12

Author

An, Fangzhao Alex, primary, Ransford, Anthony, additional, Schaffer, Andrew, additional, Sletten, Lucas R., additional, Gaebler, John, additional, Hostetter, James, additional, and Vittorini, Grahame, additional

Published

2022

5. High fidelity state preparation and measurement of ion qubits with spin I > ½

Author

Schaffer, Andrew, primary, An, Fangzhao Alex, additional, Ransford, Anthony, additional, Sletten, Lucas R., additional, Gaebler, John, additional, Hostetter, James, additional, and Vittorini, Grahame, additional

Published

2022

6. Identifying Single Molecular Ions by Resolved Sideband Measurements

Author

Goeders, James E., Clark, Craig R., Vittorini, Grahame, Wright, Kenneth, Viteri, C. Ricardo, and Brown, Kenneth R.

Abstract

The masses of single molecular ions are nondestructively measured by cotrapping the ion of interest with a laser-cooled atomic ion, 40Ca+. Measurement of the resolved sidebands of a dipole forbidden transition on the atomic ion reveals the normal-mode frequencies of the two ion system. The mass of two molecular ions, 40CaH+and 40Ca16O+, are then determined from the normal-mode frequencies. Isotopes of Ca+are used to determine the effects of stray electric fields on the normal mode measurement. The future use of resolved sideband experiments for molecular spectroscopy is also discussed.

Published

2024

7. Modulating carrier and sideband coupling strengths in a standing-wave gate beam

Author

deLaubenfels, Thomas E., primary, Burkhardt, Karl A., additional, Vittorini, Grahame, additional, Merrill, J. True, additional, Brown, Kenneth R., additional, and Amini, Jason M., additional

Published

2015

8. Laser-cooled atomic ions as probes of molecular ions

Author

Brown, Kenneth R., primary, Viteri, C. Ricardo, additional, Clark, Craig R., additional, Goeders, James E., additional, Khanyile, Ncamiso B., additional, and Vittorini, Grahame D., additional

Published

2015

9. Transformed composite sequences for improved qubit addressing

Author

Merrill, J. True, primary, Doret, S. Charles, additional, Vittorini, Grahame, additional, Addison, J. P., additional, and Brown, Kenneth R., additional

Published

2014

10. Laser-cooled atomic ions as probes of molecular ions

Author

Vittorini, Grahame [Schools of Chemistry and Biochemistry, Computational Science and Engineering and Physics, Georgia Institute of Technology, Atlanta, GA 30332 (United States)]

Published

2015

11. Modulating carrier and sideband coupling strengths in a standing-wave gate beam.

Author

Merrill, J. True, Amini, Jason M., deLaubenfels, Thomas E., Vittorini, Grahame, Burkhardt, Karl A., and Brown, Kenneth R.

Subjects

*COUPLING constants, *STANDING waves, *ION traps, *ELECTRIC fields, *QUANTUM theory

Abstract

We control the relative coupling strength of carrier and first-order motional sideband interactions of a trapped ion by placing it in a resonant optical standing wave. Our configuration uses the surface of a microfabricated chip trap as a mirror, avoiding technical challenges of in-vacuum optical cavities. Displacing the ion along the standing wave, we show a periodic suppression of the carrier and sideband transitions with the cycles for the two cases 180° out of phase with each other. This technique allows for the suppression of off-resonant carrier excitations when addressing the motional sidebands, and has applications in quantum simulation and quantum control. Using the standing-wave fringes, we measure the relative ion height as a function of applied electric field, allowing for a precise measurement of ion displacement and, combined with measured micromotion amplitudes, a validation of trap numerical models. [ABSTRACT FROM AUTHOR]

Published

2015