In-plane magnetic penetration depth in NbS2

P. Diener; M. Leroux; L. Cario; T. Klein; P. Rodière

doi:10.1103/PhysRevB.84.054531

In-plane magnetic penetration depth in NbS₂

P. Diener
, M. Leroux
, L. Cario
, T. Klein
, P. Rodière

École Polytechnique

CNRS
Université de Nantes
Institut Universitaire de France

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We report on the temperature dependence of the in-plane magnetic penetration depth (λ_ab) and first penetration field [H _f1/λab2(T) for H c] in 2H-NbS₂ single crystals. An exponential temperature dependence is clearly observed in λ _ab(T) at low temperature, marking the presence of a fully open superconducting gap. This compound is the only superconducting 2H-dichalcogenide which does not develop a charge density wave (CDW). However, as previously observed in 2H-NbSe₂, this gap (Δ₁=1.1k _BT_c) is significantly smaller than the standard BCS weak-coupling value. At higher temperature, a larger gap (Δ₂=1. 8k_BT_c) has to be introduced to describe the data which are compatible with a two-gap model. The superconducting gaps are hence very similar in NbS₂ and NbSe₂ and we show here that both of them open in the strongly coupled Nb tubular sheets independent of whether or not a CDW is present.

langue originale	Anglais
Numéro d'article	054531
journal	Physical Review B - Condensed Matter and Materials Physics
Volume	84
Numéro de publication	5
Les DOIs	https://doi.org/10.1103/PhysRevB.84.054531
état	Publié - 11 août 2011

Accès au document

10.1103/PhysRevB.84.054531

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title = "In-plane magnetic penetration depth in NbS2 ",

abstract = "We report on the temperature dependence of the in-plane magnetic penetration depth (λab) and first penetration field [H f1/λab2(T) for H c] in 2H-NbS2 single crystals. An exponential temperature dependence is clearly observed in λ ab(T) at low temperature, marking the presence of a fully open superconducting gap. This compound is the only superconducting 2H-dichalcogenide which does not develop a charge density wave (CDW). However, as previously observed in 2H-NbSe2, this gap (Δ1=1.1k BTc) is significantly smaller than the standard BCS weak-coupling value. At higher temperature, a larger gap (Δ2=1. 8kBTc) has to be introduced to describe the data which are compatible with a two-gap model. The superconducting gaps are hence very similar in NbS2 and NbSe2 and we show here that both of them open in the strongly coupled Nb tubular sheets independent of whether or not a CDW is present.",

author = "P. Diener and M. Leroux and L. Cario and T. Klein and P. Rodi{\`e}re",

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AU - Diener, P.

AU - Leroux, M.

AU - Cario, L.

AU - Klein, T.

AU - Rodière, P.

PY - 2011/8/11

Y1 - 2011/8/11

N2 - We report on the temperature dependence of the in-plane magnetic penetration depth (λab) and first penetration field [H f1/λab2(T) for H c] in 2H-NbS2 single crystals. An exponential temperature dependence is clearly observed in λ ab(T) at low temperature, marking the presence of a fully open superconducting gap. This compound is the only superconducting 2H-dichalcogenide which does not develop a charge density wave (CDW). However, as previously observed in 2H-NbSe2, this gap (Δ1=1.1k BTc) is significantly smaller than the standard BCS weak-coupling value. At higher temperature, a larger gap (Δ2=1. 8kBTc) has to be introduced to describe the data which are compatible with a two-gap model. The superconducting gaps are hence very similar in NbS2 and NbSe2 and we show here that both of them open in the strongly coupled Nb tubular sheets independent of whether or not a CDW is present.

AB - We report on the temperature dependence of the in-plane magnetic penetration depth (λab) and first penetration field [H f1/λab2(T) for H c] in 2H-NbS2 single crystals. An exponential temperature dependence is clearly observed in λ ab(T) at low temperature, marking the presence of a fully open superconducting gap. This compound is the only superconducting 2H-dichalcogenide which does not develop a charge density wave (CDW). However, as previously observed in 2H-NbSe2, this gap (Δ1=1.1k BTc) is significantly smaller than the standard BCS weak-coupling value. At higher temperature, a larger gap (Δ2=1. 8kBTc) has to be introduced to describe the data which are compatible with a two-gap model. The superconducting gaps are hence very similar in NbS2 and NbSe2 and we show here that both of them open in the strongly coupled Nb tubular sheets independent of whether or not a CDW is present.

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