Inhomogeneous superconductivity induced by interstitial Fe deintercalation in oxidizing-agent-annealed and HNO 3-treated Fe 1+y(Te 1xSe x)

J. Hu, G. C. Wang, B. Qian, Zhiqiang Mao

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Abstract

We have systematically investigated the effect of annealing on the superconductivity of the iron chalcogenide Fe 1+y(Te 1xSe x). The atmospheres used for annealing include O 2, N 2, I 2 vapor, air and vacuum. We observed that annealing in O 2, I 2 and air could enhance the superconductivity of underdoped samples, consistent with the results reported in the literature. Interestingly, we found that annealing in N 2 also leads to a superconductivity enhancement, similar to the annealing effects of O 2, I 2 and air. However, vacuum annealing does not enhance the superconductivity, which indicates that the enhanced superconductivity in O 2-, N 2- , I 2- and air-annealed samples is not due to improved homogeneity. In addition, we treated underdoped samples with nitric acid, which is found to enhance the superconductivity as well. Our analyses of these results support the argument that the superconductivity enhancement, caused either by annealing or nitric acid treatment, originates from the variation of interstitial Fe. The interstitial Fe, which is destructive to superconducting pairing, can be reduced by annealing in oxidation agents or nitric acid treatment. We also find that although N 2-, O 2- and air-annealed samples exhibit strong superconducting diamagnetism with 4πχ1 (χ, dc magnetic susceptibility) for some samples, their actual superconducting volume fraction probed by specific heat is low, ranging from 10% to 30% for 0.09<x<0.3, indicating that the superconductivity suppression remains significant even in annealed samples. The strong diamagnetism is associated with the superconducting shielding effect on the non-superconducting phase. We have also established the phase diagram of the annealed samples and compared it with that of the as-grown samples. The effect of annealing on the interplay between magnetism and superconductivity is discussed.

Original languageEnglish (US)
Article number084011
JournalSuperconductor Science and Technology
Volume25
Issue number8
DOIs
StatePublished - Aug 1 2012

Fingerprint

Superconductivity
Oxidants
interstitials
superconductivity
Annealing
annealing
Nitric Acid
nitric acid
Nitric acid
Diamagnetism
air
Air
diamagnetism
Vacuum
vacuum
acids
augmentation
Magnetism
Magnetic susceptibility
Shielding

All Science Journal Classification (ASJC) codes

  • Ceramics and Composites
  • Condensed Matter Physics
  • Metals and Alloys
  • Electrical and Electronic Engineering
  • Materials Chemistry

Cite this

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abstract = "We have systematically investigated the effect of annealing on the superconductivity of the iron chalcogenide Fe 1+y(Te 1xSe x). The atmospheres used for annealing include O 2, N 2, I 2 vapor, air and vacuum. We observed that annealing in O 2, I 2 and air could enhance the superconductivity of underdoped samples, consistent with the results reported in the literature. Interestingly, we found that annealing in N 2 also leads to a superconductivity enhancement, similar to the annealing effects of O 2, I 2 and air. However, vacuum annealing does not enhance the superconductivity, which indicates that the enhanced superconductivity in O 2-, N 2- , I 2- and air-annealed samples is not due to improved homogeneity. In addition, we treated underdoped samples with nitric acid, which is found to enhance the superconductivity as well. Our analyses of these results support the argument that the superconductivity enhancement, caused either by annealing or nitric acid treatment, originates from the variation of interstitial Fe. The interstitial Fe, which is destructive to superconducting pairing, can be reduced by annealing in oxidation agents or nitric acid treatment. We also find that although N 2-, O 2- and air-annealed samples exhibit strong superconducting diamagnetism with 4πχ1 (χ, dc magnetic susceptibility) for some samples, their actual superconducting volume fraction probed by specific heat is low, ranging from 10{\%} to 30{\%} for 0.09",
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T1 - Inhomogeneous superconductivity induced by interstitial Fe deintercalation in oxidizing-agent-annealed and HNO 3-treated Fe 1+y(Te 1xSe x)

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AU - Wang, G. C.

AU - Qian, B.

AU - Mao, Zhiqiang

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N2 - We have systematically investigated the effect of annealing on the superconductivity of the iron chalcogenide Fe 1+y(Te 1xSe x). The atmospheres used for annealing include O 2, N 2, I 2 vapor, air and vacuum. We observed that annealing in O 2, I 2 and air could enhance the superconductivity of underdoped samples, consistent with the results reported in the literature. Interestingly, we found that annealing in N 2 also leads to a superconductivity enhancement, similar to the annealing effects of O 2, I 2 and air. However, vacuum annealing does not enhance the superconductivity, which indicates that the enhanced superconductivity in O 2-, N 2- , I 2- and air-annealed samples is not due to improved homogeneity. In addition, we treated underdoped samples with nitric acid, which is found to enhance the superconductivity as well. Our analyses of these results support the argument that the superconductivity enhancement, caused either by annealing or nitric acid treatment, originates from the variation of interstitial Fe. The interstitial Fe, which is destructive to superconducting pairing, can be reduced by annealing in oxidation agents or nitric acid treatment. We also find that although N 2-, O 2- and air-annealed samples exhibit strong superconducting diamagnetism with 4πχ1 (χ, dc magnetic susceptibility) for some samples, their actual superconducting volume fraction probed by specific heat is low, ranging from 10% to 30% for 0.09

AB - We have systematically investigated the effect of annealing on the superconductivity of the iron chalcogenide Fe 1+y(Te 1xSe x). The atmospheres used for annealing include O 2, N 2, I 2 vapor, air and vacuum. We observed that annealing in O 2, I 2 and air could enhance the superconductivity of underdoped samples, consistent with the results reported in the literature. Interestingly, we found that annealing in N 2 also leads to a superconductivity enhancement, similar to the annealing effects of O 2, I 2 and air. However, vacuum annealing does not enhance the superconductivity, which indicates that the enhanced superconductivity in O 2-, N 2- , I 2- and air-annealed samples is not due to improved homogeneity. In addition, we treated underdoped samples with nitric acid, which is found to enhance the superconductivity as well. Our analyses of these results support the argument that the superconductivity enhancement, caused either by annealing or nitric acid treatment, originates from the variation of interstitial Fe. The interstitial Fe, which is destructive to superconducting pairing, can be reduced by annealing in oxidation agents or nitric acid treatment. We also find that although N 2-, O 2- and air-annealed samples exhibit strong superconducting diamagnetism with 4πχ1 (χ, dc magnetic susceptibility) for some samples, their actual superconducting volume fraction probed by specific heat is low, ranging from 10% to 30% for 0.09

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