System to measure accurate temperature dependence of electric conductivity down to 20 K in ultrahigh vacuum

We have developed the new in situ electrical-conductivity measurement system which can be operated in ultrahigh vacuum (UHV) with accurate temperature measurement down to 20 K. This system is mainly composed of a new sample-holder fixing mechanism, a new movable conductivity-measurement mechanism, a...

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Published in:Review of scientific instruments 2013-07, Vol.84 (7), p.075103-075103
Main Authors: Sakai, C, Takeda, S N, Daimon, H
Format: Article
Language:English
Subjects:
Adsorption
CLEANING
COPPER OXIDE
Cryostats
Electrical conductivity
MEASUREMENT
Receptors
Resistivity
SINGLE CRYSTALS
SUPERCONDUCTORS
Surface chemistry
Ultrahigh vacuum
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container_title Review of scientific instruments
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creator Sakai, C
Takeda, S N
Daimon, H
description We have developed the new in situ electrical-conductivity measurement system which can be operated in ultrahigh vacuum (UHV) with accurate temperature measurement down to 20 K. This system is mainly composed of a new sample-holder fixing mechanism, a new movable conductivity-measurement mechanism, a cryostat, and two receptors for sample- and four-probe holders. Sample-holder is pushed strongly against the receptor, which is connected to a cryostat, by using this new sample-holder fixing mechanism to obtain high thermal conductivity. Test pieces on the sample-holders have been cooled down to about 20 K using this fixing mechanism, although they were cooled down to only about 60 K without this mechanism. Four probes are able to be touched to a sample surface using this new movable conductivity-measurement mechanism for measuring electrical conductivity after making film on substrates or obtaining clean surfaces by cleavage, flashing, and so on. Accurate temperature measurement is possible since the sample can be transferred with a thermocouple and∕or diode being attached directly to the sample. A single crystal of Bi-based copper oxide high-Tc superconductor (HTSC) was cleaved in UHV to obtain clean surface, and its superconducting critical temperature has been successfully measured in situ. The importance of in situ measurement of resistance in UHV was demonstrated for this HTSC before and after cesium (Cs) adsorption on its surface. The Tc onset increase and the Tc offset decrease by Cs adsorption were observed.
doi_str_mv 10.1063/1.4812336
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A single crystal of Bi-based copper oxide high-Tc superconductor (HTSC) was cleaved in UHV to obtain clean surface, and its superconducting critical temperature has been successfully measured in situ. The importance of in situ measurement of resistance in UHV was demonstrated for this HTSC before and after cesium (Cs) adsorption on its surface. 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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list); AIP_美国物理联合会现刊(与NSTL共建)
subjects Adsorption
CLEANING
COPPER OXIDE
Cryostats
Electrical conductivity
MEASUREMENT
Receptors
Resistivity
SINGLE CRYSTALS
SUPERCONDUCTORS
Surface chemistry
Ultrahigh vacuum
title System to measure accurate temperature dependence of electric conductivity down to 20 K in ultrahigh vacuum
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