The Energy and General Translation Force of Cylindrical Magnetic Domains

Thiele, A. A.; Bobeck, A. H.; Torre, E. Della; Gianola, U. F.

doi:10.1002/j.1538-7305.1971.tb01880.x

Cited by 63 publications

(31 citation statements)

References 6 publications

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“…A thermodynamic force, the gradient of DW energy caused by the temperature gradient, has been known for a long time [28]. As all magnetic energies disappear at the Curie temperature, it is expected to push the DW towards the hotter part [5], as observed here.…”

mentioning

confidence: 72%

Unidirectional Thermal Effects in Current-Induced Domain Wall Motion

et al. 2012

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We report experimental evidence of thermal effects on the displacement of vortex walls in NiFe nanostrips. With the use of nanosecond current pulses, a unidirectional motion of the magnetic domain walls towards the hotter part of the nanostrips is observed, in addition to current-induced domain wall motion. By tuning the heat dissipation in the samples and modeling the heat diffusion, we conclude that this unidirectional motion can only be explained by the presence of a temperature profile along the nanostrip. A quantitative analysis of the experiments shows that, on top of the classical thermodynamic pressure on the domain wall, another force, probably the magnonic spin Seebeck effect, is displacing the domain walls.

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confidence: 72%

Unidirectional Thermal Effects in Current-Induced Domain Wall Motion

et al. 2012

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“…When the bias voltage exceeds the work function like our work, field emission replaces the tunneling. The classical theory of field emission is based on the one-dimensional, planar Fowler--Nordheim equation [14]. In this model, the current density is expressed as following:…”

Section: Models and Discussionmentioning

confidence: 99%

“…Thus, this medium is strongly coupled. Based on a theory of magnetic domain dynamics on perpendicular strongly coupled media [14][15][16][17], the minimum stable domain size is calculated as 70 nm for this film.…”

Section: Methodsmentioning

confidence: 99%

Application of field emission in prolate-spheroidal coordinate in heat-assisted magnetic probe recording

Zhang

2007

Physica B: Condensed Matter

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“…The driving force for retracting from the semiconductor domains is counteracted by the energy penalty associated with increasing the perimeter of the depolarized area -the latter mechanism is responsible for the instability of inverted domains below a critical size upon polarization reversal of a ferroelectric. [21][22][23][24] Growth of the depolarized area is therefore self-limiting. Once the stray field at its perimeter sits predominantly in the ferroelectric phase, there is no longer a driving force for further depolarization.…”

Section: Figurementioning

confidence: 99%

“…As mentioned above there are two contributions to the total energy of the system: the domain wall (DW) energy and the electrostatic (E) energy. Hence the total energy of the simulated system is calculated as [21][22][23]:…”

Section: Figurementioning

confidence: 99%

Data retention in organic ferroelectric resistive switches

Khikhlovskyi

Breemen

Janssen

et al. 2016

Organic Electronics

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Solution-processed organic ferroelectric resistive switches could become the long-missing non-volatile memory elements in organic electronic devices. To this end, data retention in these devices should be characterized, understood and controlled. First, it is shown that the measurement protocol can strongly affect the 'apparent' retention time and a suitable protocol is identified. Second, it is shown by experimental and theoretical methods that partial depolarization of the ferroelectric is the major mechanism responsible for imperfect data retention. This depolarization occurs in close vicinity to the semiconductor-ferroelectric interface, is driven by energy minimization and is inherently present in this type of phase-separated polymer blends. Third, a direct relation between data retention and the charge injection barrier height of the resistive switch is demonstrated experimentally and numerically. Tuning the injection barrier height allows to improve retention by many orders of magnitude in time, albeit at the cost of a reduced on/off ratio. Corresponding Author

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The Energy and General Translation Force of Cylindrical Magnetic Domains

Cited by 63 publications

References 6 publications

Unidirectional Thermal Effects in Current-Induced Domain Wall Motion

Unidirectional Thermal Effects in Current-Induced Domain Wall Motion

Application of field emission in prolate-spheroidal coordinate in heat-assisted magnetic probe recording

Data retention in organic ferroelectric resistive switches

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