Non-linear effects in hopping conduction of single-crystal La2CuO4+δ

Белевцев, Б. И.; Далакова, Н. В.; Панфилов, А. С.

doi:10.1063/1.593683

Cited by 5 publications

(2 citation statements)

References 19 publications

(44 reference statements)

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“…For example, in Ref. [38], positive MR attributed to superconducting inclusions has been found at low temperature range (T < 10 K) in even more resistive La 2 CuO 4+δ with higher T N .…”

Section: Resultsmentioning

confidence: 99%

Magnetoresistive study of the antiferromagnetic–weak ferromagnetic transition in single-crystal La2CuO4+δ

Белевцев

Далакова

Savitsky

et al. 2004

Low Temperature Physics

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The resistive measurements were made to study the magnetic field-induced antiferromagnetic (AF) -weak ferromagnetic (WF) transition in La2CuO4 single-crystal. The magnetic field (DC or pulsed) was applied normally to the CuO2 layers. The transition manifested itself in a drastic decrease of the resistance in critical fields of 5-7 T. The study is the first to display the effect of the AF -WF transition on the conductivity of the La2CuO4 single-crystal in the parallel -to -CuO2 layers direction. The results provide support for the 3-dimensional nature of the hopping conduction of this layered oxide.

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“…For example, in Ref. [38], positive MR attributed to superconducting inclusions has been found at low temperature range (T < 10 K) in even more resistive La 2 CuO 4+δ with higher T N .…”

Section: Resultsmentioning

confidence: 99%

Magnetoresistive study of the antiferromagnetic–weak ferromagnetic transition in single-crystal La2CuO4+δ

Белевцев

Далакова

Savitsky

et al. 2004

Low Temperature Physics

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“…Excitation voltage‐dependent behavior, as observed for these hopping conducting oxide layers, can be expected since the applied electric field raises the hopping probability. Voltage‐dependent effects in hopping conduction have been reported for other complex oxide systems, see for instance Belevtsev et al 16 …”

Section: Resultsmentioning

confidence: 89%

The AC Conductivity of Liquid‐Phase‐Sintered Silicon Carbide

Sauti

Can

McLachlan

et al. 2007

Journal of the American Ceramic Society

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Analysis of the AC conductivity, complex dielectric constant, and the resulting immittance spectra of liquid‐phase‐sintered silicon carbide (SiC) ceramics showed that for this system, the dominant experimental observations are due to a multicomponent grain‐boundary phase and not due to SiC grains. This is confirmed by noting that the temperature dependence of the conductivity of the components, derived from the impedance spectra, is proportional to exp[−(T0/T)1/4] and not to exp[−C/T]. The electrical properties of some of the grain boundaries are also found to be excitation voltage dependent. Combining the electrical results, which are also found to depend on the method of preparation and heat treatment, with a Rietveld analysis allows the composition of the grain boundaries of the models to be deduced.

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