Your search keyword '"Wolf, Robert N."' showing total 8 results

1. In-situ-tunable spin-spin interactions in a Penning trap with in-bore optomechanics

Author

Pham, Joseph H., Jee, Julian Y. Z., Rischka, Alexander, Biercuk, Michael J., and Wolf, Robert N.

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

Experimental implementations of quantum simulation must balance the controllability of the quantum system under test with decoherence typically introduced through interaction with external control fields. The ratio of coherent interaction strength to decoherence induced by stimulated emission in atomic systems is typically determined by hardware constraints, limiting the flexibility needed to explore different operating regimes. Here, we present an optomechanical system for in-situ tuning of the coherent spin-motion and spin-spin interaction strength in two-dimensional ion crystals confined in a Penning trap. The system introduces active optical positioners into the tightly constrained space of the bore of a superconducting magnet, allowing adjustability of the key hardware parameter which determines the ratio of coherent to incoherent light-matter interaction for fixed optical power. Using precision closed-loop piezo-actuated positioners, the system permits in-situ tuning of the angle-of-incidence of laser beams incident on the ion crystal up to $\theta_{\text{ODF}}\approx 28^\circ$. We characterize the system using measurements of the induced mean-field spin precession under the application of an optical dipole force in ion crystals cooled below the Doppler limit through electromagnetically induced transparency cooling. These experiments show approximately a $\times2$ variation in the ratio of the coherent to incoherent interaction strength with changing $\theta_{\text{ODF}}$, consistent with theoretical predictions. We characterize system stability over 6000 seconds; rigid mounting of optomechanics to the ion trap structure reduces differential laser movements to approximately $2\times 10^{-3}$ degrees per hour, enabling long-duration experiments. These technical developments will be crucial in future quantum simulations and sensing applications.

Published

2024

2. Efficient site-resolved imaging and spin-state detection in dynamic two-dimensional ion crystals

Author

Wolf, Robert N., Pham, Joseph H., Jee, Julian Y. Z., Rischka, Alexander, and Biercuk, Michael J.

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

Resolving the locations and discriminating the spin states of individual trapped ions with high fidelity is critical for a large class of applications in quantum computing, simulation, and sensing. We report on a method for high-fidelity state discrimination in large two-dimensional (2D) crystals with over 100 trapped ions in a single trapping region, combining a hardware detector and an artificial neural network. A high-data-rate, spatially resolving, single-photon sensitive timestamping detector performs efficient single-shot detection of 2D crystals in a Penning trap, exhibiting rotation at about $25\,\mathrm{kHz}$. We then train an artificial neural network to process the fluorescence photon data in the rest frame of the rotating crystal in order to identify ion locations with a success rate of $~90\%$, accounting for substantial illumination inhomogeneity across the crystal. Finally, employing a time-binned state detection method, we arrive at an average spin-state detection fidelity of $94(2)\%$. This technique can be used to analyze spatial and temporal correlations in arrays of hundreds of trapped-ion qubits.

Published

2023

3. Examining the $N$ = 28 shell closure through high-precision mass measurements of $^{46-48}$Ar

Author

Mougeot, Maxime, Atanasov, Dinko, Barbieri, Carlo, Blaum, Klaus, Breitenfeld, Martin, de Roubin, Antoine, Duguet, Thomas, George, Sebastian, Herfurth, Frank, Herlert, Alexander, Holt, Jason D., Karthein, Jonas, Lunney, David, Manea, Vladimir, Navràtil, Petr, Neidherr, Dennis, Rosenbusch, Marco, Schweikhard, Lutz, Schwenk, Achim, Somà, Vittorio, Welker, Andree, Wienholtz, Frank, Wolf, Robert N., and Zuber, Kai

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

The strength of the $N$ = 28 magic number in neutron-rich argon isotopes is examined through high-precision mass measurements of $^{46-48}$Ar, performed with the ISOLTRAP mass spectrometer at ISOLDE/CERN. The new mass values are up to 90 times more precise than previous measurements. While they suggest the persistence of the $N$ = 28 shell closure for argon, we show that this conclusion has to be nuanced in light of the wealth of spectroscopic data and theoretical investigations performed with the \emph{SDPF-U} phenomenological shell model interaction. Our results are also compared with \emph{ab initio} calculations using the Valence Space In-Medium Similarity Renormalization Group and the Self-Consistent Green's Function approaches. Both calculations provide a very good account of mass systematics at and around $Z$ = 18 and, generally, a consistent description of the physics in this region. This combined analysis indicates that $^{46}$Ar is the transition between the closed-shell $^{48}$Ca and collective $^{44}$S., Comment: 17 pages, 14 figures

Published

2020

4. A high-power spectral beamsplitter for closely spaced frequencies

Author

Marciniak, Christian D., Rischka, Alexander, Wolf, Robert N., and Biercuk, Michael J.

Subjects

Physics - Atomic Physics, Physics - Instrumentation and Detectors, Physics - Optics

Abstract

An experimental realization of a compact, high-power spectral beamsplitter for nearly equal frequencies and identical polarization based on two-beam interference in a free-space Mach-Zehnder interferometer is presented. We demonstrate the power- and cost-efficient generation and subsequent spatial separation of two laser tones from a single sum-frequency-generation stage using double-sideband suppressed-carrier modulation in the infrared, and beam splitting in the visible at high power. The interferometer spectrally splits >98% of the incident power when accounting for bulk absorption. The beamsplitter can be constructed identically for any power or spectral range required for which suitable optics are available., Comment: 8 pages, 4 figures

Published

2020

5. Precision Mass Measurement of $^{58-63}$Cr: Nuclear Collectivity towards the \emph{N}=40 Island of Inversion

Author

Mougeot, Maxime, Atanasov, Dinko, Blaum, Klaus, Chrysalidis, Katherina, Goodacre, Tom Day, Fedorov, Dmitrii, Fedosseev, Valentin, George, Sebastian, Herfurth, Frank, Holt, Jason D., Lunney, David, Manea, Vladimir, Marsh, Bruce, Neidherr, Dennis, Rosenbusch, Marco, Rothe, Sebastian, Schweikhard, Lutz, Schwenk, Achim, Seiffert, Christophe, Simonis, Johannes, Stroberg, Steven Ragnar, Welker, Andree, Wienholtz, Frank, Wolf, Robert N., and Zuber, Kai

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

The neutron-rich isotopes $^{58-63}$Cr were produced for the first time at the ISOLDE facility and their masses were measured with the ISOLTRAP spectrometer. The new values are up to 300 times more precise than those in the literature and indicate significantly different nuclear structure from the new mass-surface trend. A gradual onset of deformation is found in this proton and neutron mid-shell region, which is a gateway to the second island of inversion around \emph{N}=40. In addition to comparisons with density-functional theory and large-scale shell-model calculations, we present predictions from the valence-space formulation of the \emph{ab initio} in-medium similarity renormalization group, the first such results for open-shell chromium isotopes., Comment: 6 pages, 3 figures, 1 table

Published

2018

6. Site-resolved imaging of beryllium ion crystals in a high-optical-access Penning trap with inbore optomechanics

Author

Ball, Harrison, Marciniak, Christian D., Wolf, Robert N., Hung, Alex T. -H., Pyka, Karsten, and Biercuk, Michael J.

Subjects

Physics - Atomic Physics, Physics - Instrumentation and Detectors, Quantum Physics

Abstract

We present the design, construction and characterization of an experimental system capable of supporting a broad class of quantum simulation experiments with hundreds of spin qubits using Be-9 ions in a Penning trap. This article provides a detailed overview of the core optical and trapping subsystems, and their integration. We begin with a description of a dual-trap design separating loading and experimental zones and associated vacuum infrastructure design. The experimental-zone trap electrodes are designed for wide-angle optical access (e.g. for lasers used to engineer spin-motional coupling across large ion crystals) while simultaneously providing a harmonic trapping potential. We describe a near-zero-loss liquid-cryogen-based superconducting magnet, employed in both trapping and establishing a quantization field for ion spin-states, and equipped with a dual-stage remote-motor LN2LHe recondenser. Experimental measurements using a nuclear magnetic resonance (NMR) probe demonstrate part-per-million homogeneity over 7 mm-diameter cylindrical volume, with no discernible effect on the measured NMR linewidth from pulse-tube operation. Next we describe a custom-engineered inbore optomechanical system which delivers ultraviolet (UV) laser light to the trap, and supports multiple aligned optical objectives for top- and sideview imaging in the experimental trap region. We describe design choices including the use of non-magnetic goniometers and translation stages for precision alignment. Further, the optomechanical system integrates UV-compatible fiber optics which decouple the system's alignment from remote light sources. Using this system we present site-resolved images of ion crystals and demonstrate the ability to realize both planar and three-dimensional ion arrays via control of rotating wall electrodes and radial laser beams. Looking to future work, we include interferometric.., Comment: 31 pages, 19 figures

Published

2018

7. Static-mirror ion capture and time focusing for electrostatic ion-beam traps and multi-reflection time-of-flight mass analyzers by use of an in-trap potential lift

Author

Wolf, Robert N., Marx, Gerrit, Rosenbusch, Marco, and Schweikhard, Lutz

Published

2012

8. Energy of the 2p1h intruder state in $^{34}$Al: an extension of the 'island of inversion'?

Author

Ascher, Pauline, Atanasov, Dinko, Blank, Bertram, Blaum, Klaus, Borgmann, Christopher, Breitenfeld, Martin, George, Sebastian, Gerbaux, Mathias, Grévy, Stéphane, Herfurth, Franck, Herlert, Alexander, Kowalska, Magdalena, Kreim, Susanne, Lica, R, Lunney, Dave, Manea, Vladimir, Marginean, N, Naimi, Sarah, Negoita, Florin, Neidherr, Dennis, Rosenbusch, Marco, Rotaru, F, Schweikhard, Lutz, Wienholtz, Franck, Wolf, Robert N, and Zuber, Kai

Subjects

Detectors and Experimental Techniques

Published

2013