James H. Atkinson scite author profile

James H. Atkinson

5Publications

97Citation Statements Received

270Citation Statements Given

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University of Central Florida

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Nanoscale constrictions in superconducting coplanar waveguide resonators

Jenkins

Naether

Ciria

et al. 2014

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We report on the design, fabrication, and characterization of superconducting coplanar waveguide resonators with nanoscopic constrictions. By reducing the size of the center line down to 50 nm, the radio frequency currents are concentrated and the magnetic field in its vicinity is increased. The device characteristics are only slightly modified by the constrictions, with changes in resonance frequency lower than 1% and internal quality factors of the same order of magnitude as the original ones. These devices could enable the achievement of higher couplings to small magnetic samples or even to single molecular spins and have applications in circuit quantum electrodynamics, quantum computing, and electron paramagnetic resonance.

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Three-Leaf Quantum Interference Clovers in a Trigonal Single-Molecule Magnet

et al. 2014

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Extreme Field Sensitivity of Magnetic Tunneling in Fe-Doped Li3N

et al. 2018

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The magnetic properties of dilute Li_{2}(Li_{1-x}Fe_{x})N with x∼0.001 are dominated by the spin of single, isolated Fe atoms. Below T=10 K the spin-relaxation times become temperature independent indicating a crossover from thermal excitations to the quantum tunneling regime. We report on a strong increase of the spin-flip probability in transverse magnetic fields that proves the resonant character of this tunneling process. Longitudinal fields, on the other hand, lift the ground-state degeneracy and destroy the tunneling condition. An increase of the relaxation time by 4 orders of magnitude in applied fields of only a few milliTesla reveals exceptionally sharp tunneling resonances. Li_{2}(Li_{1-x}Fe_{x})N represents a comparatively simple and clean model system that opens the possibility to study quantum tunneling of the magnetization at liquid helium temperatures.

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Effects of uniaxial pressure on the quantum tunneling of magnetization in a high-symmetry Mn12 single-molecule magnet

et al. 2017

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The symmetry of single-molecule magnets dictates their spin quantum dynamics, influencing how such systems relax via quantum tunneling of magnetization (QTM). By reducing a system's symmetry, through the application of a magnetic field or uniaxial pressure, these dynamics can be modified. We report measurements of the magnetization dynamics of a crystalline sample of the high-symmetry [Mn12O12(O2CMe)16(MeOH)4] · MeOH single-molecule magnet as a function of uniaxial pressure applied either parallel or perpendicular to the sample's "easy" magnetization axis.At temperatures between 1.8 and 3.3 K, magnetic hysteresis loops exhibit the characteristic steplike features that signal the occurrence of QTM. After applying uniaxial pressure to the sample in situ, both the magnitude and field position of the QTM steps changed. The step magnitudes were observed to grow as a function of pressure in both arrangements of pressure, while pressure applied along (perpendicular to) the sample's easy axis caused the resonant-tunneling fields to increase (decrease). These observations were compared with simulations in which the system's Hamiltonian parameters were changed. From these comparisons, we determined that parallel pressure induces changes to the second-order axial anisotropy parameter as well as either the fourth-order axial or fourth-order transverse parameter, or to both. In addition, we find that pressure applied

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The effect of uniaxial pressure on the magnetic anisotropy of the Mn ₁₂ -Ac single-molecule magnet

Atkinson¹,

Park²,

Beedle³

et al. 2013

EPL

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PACS 75.50.Xx -Molecular magnets PACS 75.45.+j -Macroscopic quantum phenomena in magnetic systems PACS 07.35.+k -High-pressure apparatusAbstract -We study the effect of uniaxial pressure on the magnetic hysteresis loops of the singlemolecule magnet Mn12-Ac. We find that the application of pressure along the easy axis increases the fields at which quantum tunneling of magnetization occurs. The observations are attributed to an increase in the molecule's magnetic anisotropy constant D of 0.142(1)%/kbar. The increase in D produces a small, but measurable increase in the effective energy barrier for magnetization reversal. Density-functional theory calculations also predict an increase in the barrier with applied pressure.

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James H. Atkinson

Nanoscale constrictions in superconducting coplanar waveguide resonators

Three-Leaf Quantum Interference Clovers in a Trigonal Single-Molecule Magnet

Extreme Field Sensitivity of Magnetic Tunneling in Fe-Doped Li3N

Effects of uniaxial pressure on the quantum tunneling of magnetization in a high-symmetry Mn12 single-molecule magnet

The effect of uniaxial pressure on the magnetic anisotropy of the Mn ₁₂ -Ac single-molecule magnet

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James H. Atkinson

Nanoscale constrictions in superconducting coplanar waveguide resonators

Three-Leaf Quantum Interference Clovers in a Trigonal Single-Molecule Magnet

Extreme Field Sensitivity of Magnetic Tunneling in Fe-Doped Li3N

Effects of uniaxial pressure on the quantum tunneling of magnetization in a high-symmetry Mn12 single-molecule magnet

The effect of uniaxial pressure on the magnetic anisotropy of the Mn 12 -Ac single-molecule magnet

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The effect of uniaxial pressure on the magnetic anisotropy of the Mn ₁₂ -Ac single-molecule magnet