Influence of doping on the Hall coefficient in Sr14-x Cax Cu24 O41

E. Tafra; B. Korin-Hamzić; M. Basletić; A. Hamzić; M. Dressel; J. Akimitsu

doi:10.1103/PhysRevB.78.155122

Influence of doping on the Hall coefficient in Sr14-x Cax Cu24 O41

E. Tafra, B. Korin-Hamzić, M. Basletić, A. Hamzić, M. Dressel, J. Akimitsu

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9 Citations (Scopus)

Abstract

We present Hall-effect measurements of two-leg ladder compounds Sr14-x Cax Cu24 O41 (0≤x≤11.5) with the aim to determine the number of carriers participating in dc transport. Distribution of holes between the ladder and chain subsystems is one of the crucial questions important for understanding the physics of these compounds. Our Hall-effect and resistivity measurements show typical semiconducting behavior for x<11.5. However, for x=11.5, the results are completely different, and the Hall coefficient and resistivity behavior are qualitatively similar to that of high-temperature copper-oxide superconductors. We have determined the effective number of carriers at room temperature and compared it to the number of holes in the ladders obtained by other experimental techniques. We propose that going from x=0 to x=11.5 less than 1 hole per f.u. is added to the ladders and is responsible for a pronounced change in resistivity with Ca doping.

Original language	English
Article number	155122
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	78
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.78.155122
Publication status	Published - Oct 22 2008
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.78.155122

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abstract = "We present Hall-effect measurements of two-leg ladder compounds Sr14-x Cax Cu24 O41 (0≤x≤11.5) with the aim to determine the number of carriers participating in dc transport. Distribution of holes between the ladder and chain subsystems is one of the crucial questions important for understanding the physics of these compounds. Our Hall-effect and resistivity measurements show typical semiconducting behavior for x<11.5. However, for x=11.5, the results are completely different, and the Hall coefficient and resistivity behavior are qualitatively similar to that of high-temperature copper-oxide superconductors. We have determined the effective number of carriers at room temperature and compared it to the number of holes in the ladders obtained by other experimental techniques. We propose that going from x=0 to x=11.5 less than 1 hole per f.u. is added to the ladders and is responsible for a pronounced change in resistivity with Ca doping.",

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AU - Tafra, E.

AU - Korin-Hamzić, B.

AU - Basletić, M.

AU - Hamzić, A.

AU - Dressel, M.

AU - Akimitsu, J.

PY - 2008/10/22

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N2 - We present Hall-effect measurements of two-leg ladder compounds Sr14-x Cax Cu24 O41 (0≤x≤11.5) with the aim to determine the number of carriers participating in dc transport. Distribution of holes between the ladder and chain subsystems is one of the crucial questions important for understanding the physics of these compounds. Our Hall-effect and resistivity measurements show typical semiconducting behavior for x<11.5. However, for x=11.5, the results are completely different, and the Hall coefficient and resistivity behavior are qualitatively similar to that of high-temperature copper-oxide superconductors. We have determined the effective number of carriers at room temperature and compared it to the number of holes in the ladders obtained by other experimental techniques. We propose that going from x=0 to x=11.5 less than 1 hole per f.u. is added to the ladders and is responsible for a pronounced change in resistivity with Ca doping.

AB - We present Hall-effect measurements of two-leg ladder compounds Sr14-x Cax Cu24 O41 (0≤x≤11.5) with the aim to determine the number of carriers participating in dc transport. Distribution of holes between the ladder and chain subsystems is one of the crucial questions important for understanding the physics of these compounds. Our Hall-effect and resistivity measurements show typical semiconducting behavior for x<11.5. However, for x=11.5, the results are completely different, and the Hall coefficient and resistivity behavior are qualitatively similar to that of high-temperature copper-oxide superconductors. We have determined the effective number of carriers at room temperature and compared it to the number of holes in the ladders obtained by other experimental techniques. We propose that going from x=0 to x=11.5 less than 1 hole per f.u. is added to the ladders and is responsible for a pronounced change in resistivity with Ca doping.

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Influence of doping on the Hall coefficient in Sr14-x Cax Cu24 O41

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