Relaxation measurements in the regime of the second magnetization peak in Nb films

Σταμόπουλος, Δ.; Niarchos, D.

doi:10.1016/j.physc.2004.10.009

Cited by 10 publications

(9 citation statements)

References 31 publications

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“…An avalanche event is observed when thermal activation motivates overcritical conditions and drives abrupt movement of bundles of flux lines that ultimately appears in the form of magnetization jumps. [27][28][29][30][31][32] As we show here, Figures 4(a)-4(c), in our case the observed MIs were exclusively motivated by the externally applied electric field, E ex thus we coin the term electric fieldinduced MIs (EMIs). Specifically, from Figure 4(a) it is evident that EMIs do not exist for E ex ¼ 0 kV/cm since only a gradual increase of m rem (T) was observed upon decreasing the temperature.…”

Section: -3mentioning

confidence: 58%

“…Referring to the flux-lines avalanche effect, 27 it is associated with the interplay of three energy scales, the interaction energy between flux lines, the pinning energy of flux lines with quench disorder, and finally the thermal disorder. [27][28][29][30][31][32] It is well known that during the entrance of flux lines in a superconductor they selfassemble in a critical state 33,34 so that the current reaches a critical value, at the cutting edge just before movement of flux lines takes place. An avalanche event is observed when thermal activation motivates overcritical conditions and drives abrupt movement of bundles of flux lines that ultimately appears in the form of magnetization jumps.…”

Section: -3mentioning

confidence: 99%

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Degradation of the remanent ferromagnetic state under the action of ferroelectric relaxation processes in Co/(1−x)PMN-xPT/Co hybrids: Possible implications on cryogenic and room-temperature applications

Σταμόπουλος

Zeibekis

Vertsioti

et al. 2014

Journal of Applied Physics

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Low-dimensional hybrid structures of heterogeneous constituents usually exhibit abnormal properties, a fact that makes such hybrids attractive for various cryogenic and room-temperature applications. Here, we studied Co/(1 − x)Pb(Mg1/3Nb2/3)O3-xPbTiO3/Co (Co/PMN-xPT/Co) with x = 0.29 and 0.30, specifically focusing on the evolution of the remanent ferromagnetic state, mrem of the Co outer layers in the whole temperature range from 300 K down to 10 K, upon application of an external electric field, Eex. We observed that mrem was vulnerable to degradation through the occurrence of electric field-induced magnetic instabilities (EMIs) that appeared only when Eex ≠ 0 kV/cm and were facilitated as Eex increases. However, EMIs completely ceased below a characteristic temperature Tces = 170 K even for the maximum |Eex| = 5 kV/cm applied in this work. A direct comparison of the magnetization data of the Co/PMN-xPT/Co hybrids reported here with the electromechanical properties of the parent PMN-xPT crystals plausibly indicates that EMIs are motivated by the coupling of the ferromagnetic domains of the Co outer layers with the ferroelectric domains of the PMN-xPT crystal. These results highlight the drawback of EMIs in relevant hybrids and delimit the temperature regime for the reliable operation of the Co/PMN-xPT/Co ones studied here.

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Section: -3mentioning

confidence: 58%

Section: -3mentioning

confidence: 99%

Degradation of the remanent ferromagnetic state under the action of ferroelectric relaxation processes in Co/(1−x)PMN-xPT/Co hybrids: Possible implications on cryogenic and room-temperature applications

Σταμόπουλος

Zeibekis

Vertsioti

et al. 2014

Journal of Applied Physics

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“…The observation of flux avalanche activity at higher magnetic fields enables a more detailed investigation of corresponding dependencies on B a and/or measurement parameters. The measurements were performed at T = 2.5-3 K since the range of magnetic fields over which flux avalanches occur rapidly decreases at higher temperatures [14,16,17].…”

Section: Methodsmentioning

confidence: 99%

“…In our case, they correspond to the onsets of the critical state of the superconductor as discussed in Refs. [14][15][16][17]35].…”

Section: Methodsmentioning

confidence: 99%

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Origin of magnetic flux-jumps in Nb films subject to mechanical vibrations and corresponding magnetic perturbations

et al. 2018

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In this paper the origin of flux-jumps in Nb thin films is established during magnetization measurements using a vibrating sample magnetometer (VSM). Magnetization measurements of the flux avalanche activity show its strong dependence on frequency and amplitude of VSM vibration. In particular, under certain conditions the vibrations induce a transition from a stable superconducting critical state to an undercritical state, accompanied by the 20-fold drop in the magnetic moment. These features allow the elucidation of the origin of the flux-jumps. In contrast to the commonly assumed thermomagnetic instabilities to be responsible for the flux-jumps in Nb films, our results provide solid support for an alternative explanation being due to criticalitybuilt instability well represented by a sandpile. Considering properties of the flux-flow during a flux avalanche regime allows us to estimate nonuniformity of a magnetic field in a VSM sample space developed as a result of vibrations.

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Paramagnetic Meissner Effect and AC Magnetization in Roll-Bonded Cu–Nb Layered Composites

Sandim¹,

Σταμόπουλος

Ghivelder³

et al. 2010

J Supercond Nov Magn

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Relaxation measurements in the regime of the second magnetization peak in Nb films

Cited by 10 publications

References 31 publications

Degradation of the remanent ferromagnetic state under the action of ferroelectric relaxation processes in Co/(1−x)PMN-xPT/Co hybrids: Possible implications on cryogenic and room-temperature applications

Degradation of the remanent ferromagnetic state under the action of ferroelectric relaxation processes in Co/(1−x)PMN-xPT/Co hybrids: Possible implications on cryogenic and room-temperature applications

Origin of magnetic flux-jumps in Nb films subject to mechanical vibrations and corresponding magnetic perturbations

Paramagnetic Meissner Effect and AC Magnetization in Roll-Bonded Cu–Nb Layered Composites

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