The parameters of germanium chalcogenide glasses determined from superconducting transition data

The optical, electrical and magnetic properties of amorphous semiconductors have been a matter of considerable interest in recent years. However, some important parameters of these materials are not known. In order to clarify this problem for some of germanium chalcogenide glasses (GCG), the detaile...

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Veröffentlicht in:	Materials research bulletin 1993-01, Vol.28:1
1. Verfasser:	Savransky, S.D.
Format:	Artikel
Sprache:	eng
Schlagworte:	360607 - Other Materials- Superconducting Properties- (1992-) AMORPHOUS STATE ARSENIC COMPOUNDS ARSENIC SELENIDES CHALCOGENIDES ELECTRIC CONDUCTIVITY ELECTRICAL PROPERTIES GERMANIUM COMPOUNDS GERMANIUM SELENIDES GERMANIUM TELLURIDES GLASS MATERIALS MATERIALS SCIENCE PHYSICAL PROPERTIES SELENIDES SELENIUM COMPOUNDS SEMICONDUCTOR MATERIALS SUPERCONDUCTIVITY TELLURIDES TELLURIUM COMPOUNDS THERMODYNAMIC PROPERTIES TRANSITION TEMPERATURE
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container_title	Materials research bulletin
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creator	Savransky, S.D.
description	The optical, electrical and magnetic properties of amorphous semiconductors have been a matter of considerable interest in recent years. However, some important parameters of these materials are not known. In order to clarify this problem for some of germanium chalcogenide glasses (GCG), the detailed analysis of the experimental data on superconductivity in these alloys is presented. In GCG the superconductivity transition temperature [Tc] increases quickly and the width of the superconducting transition decreases with pressure P increasing. The resistance of GCG in the normal state increases as does temperature T under the same P as those generating superconductivity.
doi_str_mv	10.1016/0025-5408(93)90011-2
format	Article
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However, some important parameters of these materials are not known. In order to clarify this problem for some of germanium chalcogenide glasses (GCG), the detailed analysis of the experimental data on superconductivity in these alloys is presented. In GCG the superconductivity transition temperature [Tc] increases quickly and the width of the superconducting transition decreases with pressure P increasing. The resistance of GCG in the normal state increases as does temperature T under the same P as those generating superconductivity.</abstract><cop>United States</cop><doi>10.1016/0025-5408(93)90011-2</doi></addata></record>
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subjects	360607 - Other Materials- Superconducting Properties- (1992-) AMORPHOUS STATE ARSENIC COMPOUNDS ARSENIC SELENIDES CHALCOGENIDES ELECTRIC CONDUCTIVITY ELECTRICAL PROPERTIES GERMANIUM COMPOUNDS GERMANIUM SELENIDES GERMANIUM TELLURIDES GLASS MATERIALS MATERIALS SCIENCE PHYSICAL PROPERTIES SELENIDES SELENIUM COMPOUNDS SEMICONDUCTOR MATERIALS SUPERCONDUCTIVITY TELLURIDES TELLURIUM COMPOUNDS THERMODYNAMIC PROPERTIES TRANSITION TEMPERATURE
title	The parameters of germanium chalcogenide glasses determined from superconducting transition data
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