A.Ya. Karpenko scite author profile

A.Ya. Karpenko

3Publications

2Citation Statements Received

13Citation Statements Given

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Institute for Nuclear Research

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Nuclear irradiation-induced superconductivity in the binary semiconductor InAs

Karpenko

Litovchenko

Shevtsova

et al. 2003

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A jump-like increase of the resistance as a function of magnetic field is observed in indium arsenide samples irradiated by a particles with an energy of 80 MeV. The effect is detected at T < 5 K. The observed effect is explained by the appearance in the crystal of superconducting areas created by nuclear irradiation. The magnetoresistance is caused by suppression of the superconductivity in the inclusions under magnetic field increase. The observed effect is considered in terms of a theory of the magnetoresistance of a medium with superconducting inclusions, proposed earlier. The proposed theory explains qualitatively the experimentally measured dependence of the resistance on magnetic field, namely: the jump of the resistance at a certain value of magnetic field; the shift of the curves towards higher magnetic fields with decrease of temperature; at lower values of the temperature the jump takes place in a wider range of magnetic fields (i.e., the curves became flatter).

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Dose Dependence of Semiconductor Material Conductivity as a Means of High Fluence Dosimetry

Vikhliy¹,

Karpenko²,

Litovchenko³

1996

Radiation Protection Dosimetry

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IMPACT OF PROTON IRRADIATION ON THE PHYSICAL PROPERTIES OF Si-Ge WHISKERS N.

Pavlovska¹,

Litovchenko²,

Druzhinin³

et al. 2010

SEMST

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A.Ya. Karpenko

Nuclear irradiation-induced superconductivity in the binary semiconductor InAs

Dose Dependence of Semiconductor Material Conductivity as a Means of High Fluence Dosimetry

IMPACT OF PROTON IRRADIATION ON THE PHYSICAL PROPERTIES OF Si-Ge WHISKERS N.

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