Superconducting properties and structure of vanadium after cryogenic deformation

Aksenov, V. K.; Chernyak, N.A.; Volchok, O. I.; Mats, A. V.; Starodubov, Ya. D.

doi:10.1063/1.593571

Cited by 5 publications

(2 citation statements)

References 12 publications

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“…Moreover, other TEM observations on vanadium rolled in the range 293-1273 K show that perfect cellular structures with regions of low dislocation density are not formed even for deformations in the range 50-94% [21]. Also, uniform distributions of dislocations are expected to be formed in the samples uniaxially deformed under the present conditions according to TEM observations of vanadium uniaxially deformed at 77 K and at RT [23].…”

Section: The Temperature Dependence Of the Annihilation Parametersmentioning

confidence: 57%

A model for interpreting the positron annihilation characteristics of deformed metals; application to vanadium

Pareja¹

1998

J. Phys.: Condens. Matter

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The positron characteristics in the temperature range 10-300 K have been investigated for single crystals of vanadium deformed under different conditions. Positive temperature dependences for the annihilation parameters S and are found. The average rate of increase appears to be controlled by the dislocation density and concentration of vacancies induced by deformation. A positron trapping model, assuming trapping at dislocations decreasing exponentially with temperature, thermally activated detrapping from dislocations and temperature-independent trapping at deep traps, predicts a temperature-dependent competing trapping that determines the temperature dependences of the annihilation parameters. The validity and predictions of the model are discussed in terms of the parameters of the functions S(T) or . The positron binding energy for dislocation lines, their positron trapping coefficient, the dislocation density and the rate of trapping at deep traps can be determined by fitting the observed temperature dependences to this competing-trapping model. The method permits us to investigate quantitatively the evolution of the defect structure of metals during their recovery.

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Section: The Temperature Dependence Of the Annihilation Parametersmentioning

confidence: 57%

A model for interpreting the positron annihilation characteristics of deformed metals; application to vanadium

Pareja¹

1998

J. Phys.: Condens. Matter

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“…It might be possible to fabricate thin film nano-patterns for optical, electrical or sensing applications using this material [3,4]. There has been extensive research on bulk vanadium [5,6,7,8]. In contrast, very little work has been reported on V thin films, whose properties may differ from those of bulk because of the small size in the direction of thickness and the interrupted continuity by the presence of surfaces and interfaces.…”

Section: Introductionmentioning

confidence: 99%

Microstructure and Oxidation Behavior of Metal V Films Deposited by Magnetron Sputtering

et al. 2019

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Direct-current magnetron sputtering (DCMS) was applied to prepare vanadium (V) films on Si substrate. The influence of substrate temperature (Ts) and target–substrate distance (Dt–s) on phase structure and surface morphology of V films were investigated by X-ray diffraction (XRD), scanning electron microscopy (SEM), atomic force microscope (AFM) and transmission electron microscopy (TEM). The results show that the crystallinity of the V films increases with increasing Ts and decreasing Dt–s. The film deposited at Ts = 400 °C and Dt–s = 60 mm exhibits the best crystallinity and <111> preferred orientation with a regular tetrahedral surface morphology. Oxidation behavior of the V thin films has also been studied by X-ray photoelectron spectroscopy (XPS).

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An extraordinary enhancement of strain hardening in fine-grained zirconium

Guo

Zhang

et al. 2014

Materials Science and Engineering: A

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Superconducting properties and structure of vanadium after cryogenic deformation

Cited by 5 publications

References 12 publications

A model for interpreting the positron annihilation characteristics of deformed metals; application to vanadium

A model for interpreting the positron annihilation characteristics of deformed metals; application to vanadium

Microstructure and Oxidation Behavior of Metal V Films Deposited by Magnetron Sputtering

An extraordinary enhancement of strain hardening in fine-grained zirconium

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