Decrease of upper critical field with underdoping in cuprate superconductors

J. Chang; N. Doiron-Leyraud; O. Cyr-Choinière; G. Grissonnanche; F. Laliberté; E. Hassinger; J. Ph Reid; R. Daou; S. Pyon; T. Takayama; H. Takagi; Louis Taillefer

doi:10.1038/nphys2380

Decrease of upper critical field with underdoping in cuprate superconductors

J. Chang
, N. Doiron-Leyraud
, O. Cyr-Choinière
, G. Grissonnanche
, F. Laliberté
, E. Hassinger
, J. Ph Reid
, R. Daou
, S. Pyon
, T. Takayama
, H. Takagi
, Louis Taillefer

Research output: Contribution to journal › Article › peer-review

Abstract

It is still unclear why the transition temperature T c of cuprate superconductors falls with underdoping. The doping dependence of the critical magnetic field H _c2 is directly relevant to this question, but different estimates of H _c2 are in sharp contradiction. We resolve this contradiction by tracking the characteristic field scale of superconducting fluctuations as a function of doping, via measurements of the Nernst effect in La _1.8-x Eu _0.2 Sr _x CuO ₄ . H _c2 is found to fall with underdoping, with a minimum where stripe order is strong. The same non-monotonic behaviour is observed in the archetypal cuprate superconductor YBa ₂ Cu ₃ O _y . We conclude that competing states such as stripe order weaken superconductivity and cause both H _c2 and T _c to fall as cuprates become underdoped.

Original language	English
Pages (from-to)	751-756
Number of pages	6
Journal	Nature Physics
Volume	8
Issue number	10
DOIs	https://doi.org/10.1038/nphys2380
Publication status	Published - 1 Jan 2012
Externally published	Yes

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abstract = " It is still unclear why the transition temperature T c of cuprate superconductors falls with underdoping. The doping dependence of the critical magnetic field H c2 is directly relevant to this question, but different estimates of H c2 are in sharp contradiction. We resolve this contradiction by tracking the characteristic field scale of superconducting fluctuations as a function of doping, via measurements of the Nernst effect in La 1.8-x Eu 0.2 Sr x CuO 4 . H c2 is found to fall with underdoping, with a minimum where stripe order is strong. The same non-monotonic behaviour is observed in the archetypal cuprate superconductor YBa 2 Cu 3 O y . We conclude that competing states such as stripe order weaken superconductivity and cause both H c2 and T c to fall as cuprates become underdoped.",

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T1 - Decrease of upper critical field with underdoping in cuprate superconductors

AU - Chang, J.

AU - Doiron-Leyraud, N.

AU - Cyr-Choinière, O.

AU - Grissonnanche, G.

AU - Laliberté, F.

AU - Hassinger, E.

AU - Reid, J. Ph

AU - Daou, R.

AU - Pyon, S.

AU - Takayama, T.

AU - Takagi, H.

AU - Taillefer, Louis

PY - 2012/1/1

Y1 - 2012/1/1

N2 - It is still unclear why the transition temperature T c of cuprate superconductors falls with underdoping. The doping dependence of the critical magnetic field H c2 is directly relevant to this question, but different estimates of H c2 are in sharp contradiction. We resolve this contradiction by tracking the characteristic field scale of superconducting fluctuations as a function of doping, via measurements of the Nernst effect in La 1.8-x Eu 0.2 Sr x CuO 4 . H c2 is found to fall with underdoping, with a minimum where stripe order is strong. The same non-monotonic behaviour is observed in the archetypal cuprate superconductor YBa 2 Cu 3 O y . We conclude that competing states such as stripe order weaken superconductivity and cause both H c2 and T c to fall as cuprates become underdoped.

AB - It is still unclear why the transition temperature T c of cuprate superconductors falls with underdoping. The doping dependence of the critical magnetic field H c2 is directly relevant to this question, but different estimates of H c2 are in sharp contradiction. We resolve this contradiction by tracking the characteristic field scale of superconducting fluctuations as a function of doping, via measurements of the Nernst effect in La 1.8-x Eu 0.2 Sr x CuO 4 . H c2 is found to fall with underdoping, with a minimum where stripe order is strong. The same non-monotonic behaviour is observed in the archetypal cuprate superconductor YBa 2 Cu 3 O y . We conclude that competing states such as stripe order weaken superconductivity and cause both H c2 and T c to fall as cuprates become underdoped.

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JF - Nature Physics

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ER -

Decrease of upper critical field with underdoping in cuprate superconductors

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