A. M. Yakovenko scite author profile

The dynamics of quantized magnetic vortices and their pinning by materials defects determine electromagnetic properties of superconductors, particularly their ability to carry non-dissipative currents. Despite recent advances in the understanding of the complex physics of vortex matter, the behavior of vortices driven by current through a multi-scale potential of the actual materials defects is still not well understood, mostly due to the scarcity of appropriate experimental tools capable of tracing vortex trajectories on nanometer scales. Using a novel scanning superconducting quantum interference microscope we report here an investigation of controlled dynamics of vortices in lead films with sub-Angstrom spatial resolution and unprecedented sensitivity. We measured, for the first time, the fundamental dependence of the elementary pinning force of multiple defects on the vortex displacement, revealing a far more complex behavior than has previously been recognized, including striking spring softening and broken-spring depinning, as well as spontaneous hysteretic switching between cellular vortex trajectories. Our results indicate the importance of thermal fluctuations even at 4.2 K and of the vital role of ripples in the pinning potential, giving new insights into the mechanisms of magnetic relaxation and electromagnetic response of superconductors.

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Emergent nanoscale superparamagnetism at oxide interfaces

Anahory

Embon

et al. 2016

Nat Commun

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Atomically sharp oxide heterostructures exhibit a range of novel physical phenomena that are absent in the parent compounds. A prominent example is the appearance of highly conducting and superconducting states at the interface between LaAlO3 and SrTiO3. Here we report an emergent phenomenon at the LaMnO3/SrTiO3 interface where an antiferromagnetic Mott insulator abruptly transforms into a nanoscale inhomogeneous magnetic state. Upon increasing the thickness of LaMnO3, our scanning nanoSQUID-on-tip microscopy shows spontaneous formation of isolated magnetic nanoislands, which display thermally activated moment reversals in response to an in-plane magnetic field. The observed superparamagnetic state manifests the emergence of thermodynamic electronic phase separation in which metallic ferromagnetic islands nucleate in an insulating antiferromagnetic matrix. We derive a model that captures the sharp onset and the thickness dependence of the magnetization. Our model suggests that a nearby superparamagnetic–ferromagnetic transition can be gate tuned, holding potential for applications in magnetic storage and spintronics.

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Three-Junction SQUID-on-Tip with Tunable In-Plane and Out-of-Plane Magnetic Field Sensitivity

et al. 2014

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Nanoscale superconducting quantum interference devices (SQUIDs) demonstrate record sensitivities to small magnetic moments but are typically sensitive only to the field component that is normal to the plane of the SQUID and out-of-plane with respect to the scanned surface. We report on a nanoscale three-junction Pb SQUID, which is fabricated on the apex of a sharp tip. Because of its three-dimensional structure, it exhibits a unique tunable sensitivity to both in-plane and out-of-plane fields. We analyze the two-dimensional interference pattern from both numerical and experimental points of view. This device is integrated into a scanning microscope, and its ability to independently measure the different components of the magnetic field with outstanding spin sensitivity better than 5 μB/Hz(1/2) is demonstrated. This highlights its potential as a local probe of nanoscale magnetic structures.

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Efficiency of Soil Applied Herbicides in Sunflower Plants

et al. 2022

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The paper presents the results of the research on identifying the biological efficiency of soil applied herbicides in oil sunflower under the conditions of Gomel and Brest regions. In the technology of protecting sunflower from weed plants it’s advisable to use soil herbicides which can control almost completely plant infestation during the whole vulnerable period of the crop, in particular within the first 40 days of vegetation.

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Low-temperature resistivity of Zener ferromagnets

Krivoruchko¹,

Yakovenko²

1998

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Low-temperature resistivity ρ(T) of Zener ferromagnets due to the interaction between the conducting and magnetic subsystem is studied. The effective Hamiltonian is obtained by using the representation of Hubbard’s operators in terms of local pseudospins and spinless fermions. The contribution to ρ(T) from scattering of charge carriers by spin waves and magnetic inhomogeneities is considered. The latter are simulated by a vector field with random orientation and location of scattering center. The obtained dependence ρ(T)=ρ0+ρ1T3/2+ρ2T5/2 is compared with the available experimental and theoretical results.

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A. M. Yakovenko

Probing dynamics and pinning of single vortices in superconductors at nanometer scales

Emergent nanoscale superparamagnetism at oxide interfaces

Three-Junction SQUID-on-Tip with Tunable In-Plane and Out-of-Plane Magnetic Field Sensitivity

Efficiency of Soil Applied Herbicides in Sunflower Plants

Low-temperature resistivity of Zener ferromagnets

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