Stability analysis of ion motion in asymmetric planar ion traps

Shaikh, F.; Ozakin, Arkadas

doi:10.1063/1.4752404

Cited by 15 publications

(13 citation statements)

References 14 publications

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“…x y z , , ) in figure 2(b) are the diagonal elements of the multi-dimensional form of the stability parameter q M of the Mathieu equation [42], which are defined by , where arg min represents the values of y and z that minimise F ( ) x y z , , ps at a certain x, Q RF is the RF-electrodes basis function [35], and m and q are the mass and charge of the trapped ions, respectively.…”

Section: Optimisation Results and Analysesmentioning

confidence: 99%

Optimised surface-electrode ion-trap junctions for experiments with cold molecular ions

2017

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We discuss the design and optimisation of two types of junctions between surface-electrode radiofrequency ion-trap arrays that enable the integration of experiments with sympathetically cooled molecular ions on a monolithic chip device. A detailed description of a multi-objective optimisation procedure applicable to an arbitrary planar junction is presented, and the results for a cross junction between four quadrupoles as well as a quadrupole-to-octupole junction are discussed. Based on these optimised functional elements, we propose a multi-functional ion-trap chip for experiments with translationally cold molecular ions at temperatures in the millikelvin range. This study extends complex chip-based trapping techniques to Coulomb-crystallised molecular ions with potential applications in mass spectrometry, spectroscopy, controlled chemistry and quantum technology.

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Section: Optimisation Results and Analysesmentioning

confidence: 99%

Optimised surface-electrode ion-trap junctions for experiments with cold molecular ions

2017

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“…Consequently, none of the principal axes of motion should be perpendicular to the trap surface. The RF electrodes have thus been fabricated with unequal widths ensuring that the two radial principal axes both have a component parallel to the trap surface [26]. Seven segmented electrodes are located on each side of the two RF electrodes.…”

Section: Design Overview and Fabricationmentioning

confidence: 99%

Cryogenic surface ion trap based on intrinsic silicon

et al. 2014

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Trapped ions are pre-eminent candidates for building quantum information processors and quantum simulators. To scale such systems to more than a few tens of ions it is important to tackle the observed high ion-heating rates and create scalable trap structures which can be simply and reliably produced. Here, we report on cryogenically operated intrinsic-silicon ion traps which can be rapidly and easily fabricated using standard semiconductor technologies. Single 40 Ca + ions have been trapped and used to characterize the trap operation. Long ion lifetimes were observed with the traps exhibiting heating rates as low as = ṅ 0.33 phonons s −1 at an ion-electrode distance of 230 μm. These results open many new avenues to arrays of micro-fabricated ion traps.

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“…This degeneracy can be lifted by varying a y (while a z is not an independent parameter, but determined by a z = −a x − a y ). Setting a yz = 0 couples (linearly) the motion in the radial plane, causing the mode vectors to mix, such that their direction is no longer aligned with the yand z-axis [57][58][59]. The frequencies of the radial modes will change as well.…”

Section: A1 a Tilted Trap Potentialmentioning

confidence: 99%

Structure, dynamics and bifurcations of discrete solitons in trapped ion crystals

et al. 2013

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We study discrete solitons (kinks) accessible in the state-of-theart trapped ion experiments, considering zigzag crystals and quasi-threedimensional configurations, both theoretically and experimentally. We first extend the theoretical understanding of different phenomena predicted and recently experimentally observed in the structure and dynamics of these topological excitations. Employing tools from topological degree theory, we analyze bifurcations of crystal configurations in dependence on the trapping parameters, and investigate the formation of kink configurations and the transformations of kinks between different structures. This allows us to accurately define and calculate the effective potential experienced by solitons within the Wigner crystal, and study how this (so-called Peierls-Nabarro) potential gets modified to a non-periodic globally trapping potential in certain parameter regimes. The kinks' rest mass (energy) and spectrum of modes are computed and the dynamics of linear and nonlinear kink oscillations are analyzed. We also present novel, experimentally observed, configurations of kinks incorporating a large-mass defect realized by an embedded molecular ion, and of pairs of interacting kinks stable for long times, offering the perspective for exploring and exploiting complex collective nonlinear excitations, controllable on the quantum level.

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Stability analysis of ion motion in asymmetric planar ion traps

Cited by 15 publications

References 14 publications

Optimised surface-electrode ion-trap junctions for experiments with cold molecular ions

Optimised surface-electrode ion-trap junctions for experiments with cold molecular ions

Cryogenic surface ion trap based on intrinsic silicon

Structure, dynamics and bifurcations of discrete solitons in trapped ion crystals

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