Superconducting gap structure of the skutterudite<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mrow><mml:msub><mml:mi>LaPt</mml:mi><mml:mn>4</mml:mn></mml:msub><mml:msub><mml:mi>Ge</mml:mi><mml:mn>12</mml:mn></mml:msub></mml:mrow></mml:math>probed by specific heat and thermal transport

Pfau, Heike; Stockert, U.; Gumeniuk, Roman; Schnelle, Walter; Leithe‐Jasper, Andreas; Grin, Yu.; Steglich, F.

doi:10.1103/physrevb.94.054523

Cited by 13 publications

(14 citation statements)

References 65 publications

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“…The red solid line in Figure 2 b represents the best fit of the data by the Ginzburg–Landau (G-L) formula:

where H c 2 (0) is the upper critical field at zero temperature and

is the reduced temperature. The data are very well described by the G-L Equation with μ 0 H c 2 (0) = 1.23 T, as already reported for (Pr,La)Pt 4 Ge 12 and Pr 1−x Nd x Pt 4 Ge 12 compounds [ 14 , 24 , 29 , 31 , 32 , 33 , 34 ]. For comparison, in Figure 2 b, we also show the temperature dependence of the upper critical field derived within the Werthamer–Helfand–Hohenberg (WHH) model (blue dashed line), which includes orbital and Zeeman pair breaking [ 35 , 36 ].…”

Section: Resultssupporting

confidence: 82%

“…μSR experiments on PrPt 4 Ge 12 showed a time-reversal symmetry breaking below T c [ 20 , 21 , 22 , 23 ], in contrast to the results on LaPt 4 Ge 12 , for which the time-reversal symmetry breaking is absent and a conventional superconductivity with a fully gapped density of states is supposed [ 21 ]. The superconducting order parameter of LaPt 4 Ge 12 has also been studied using specific heat and thermal conductivity measurements [ 24 ], showing that the sharp transition in the specific heat and its zero-field temperature dependence are well described in a conventional BCS (Bardeen–Cooper–Schrieffer) scenario characterized by a single energy gap and s-wave symmetry [ 25 ]. On the other hand, de Haas–van Alphen measurements have been reported with state-of-the-art band-structure calculations showing that LaPt 4 Ge 12 and PrPt 4 Ge 12 have almost identical electronic structures, Fermi surfaces and effective masses [ 26 ].…”

Section: Introductionmentioning

confidence: 99%

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Transport and Point Contact Measurements on Pr1−xCexPt4Ge12 Superconducting Polycrystals

et al. 2020

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We performed a detailed investigation of the superconducting properties of polycrystalline Pr1−xCexPt4Ge12 pellets. We report the effect of Ce substitution, for x = 0.07, on magnetic field phase diagram H-T. We demonstrate that the upper critical field is well described by the Ginzburg–Landau model and that the irreversibility field line has a scaling behaviour similar to cuprates. We also show that for magnetic fields lower than 0.4 T, the activation energy follows a power law of the type ?−1/2, suggesting a collective pinning regime with a quasi-2D character for the Ce-doped compound with x = 0.07. Furthermore, by means of a point contact Andreev reflection spectroscopy setup, we formed metal/superconductor nano-junctions as small as tens of nanometers on the PrPt4Ge12 parent compound (x = 0). Experimental results showed a wide variety of conductance features appearing in the dI/dV vs. V spectra, all explained in terms of a modified Blonder–Tinkham–Klapwijk model considering a superconducting order parameter with nodal directions as well as sign change in the momentum space for the sample with x = 0. The numerical simulations of the conductance spectra also demonstrate that s-wave pairing and anisotropic s-waves are unsuitable for reproducing experimental data obtained at low temperature on the un-doped compound. Interestingly, we show that the polycrystalline nature of the superconducting PrPt4Ge12 sample can favour the formation of an inter-grain Josephson junction in series with the point contact junction in this kind of experiments.

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“…The red solid line in Figure 2 b represents the best fit of the data by the Ginzburg–Landau (G-L) formula:

where H c 2 (0) is the upper critical field at zero temperature and

Section: Resultssupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

Transport and Point Contact Measurements on Pr1−xCexPt4Ge12 Superconducting Polycrystals

et al. 2020

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“…The early measurements of the spe-cific heat and µSR suggest nodal superconductivity for PrPt 4 Ge 12 104 . Later measurements of the London penetration depth 105,106 , specific heat, thermal transport 92 , NQR 107 and photoemission spectroscopy 108 demonstrate that both PrPt 4 Ge 12 and LaPt 4 Ge 12 behave more like conventional BCS SCs with a fully opened energy gap. The smooth evolution of the superconducting transition between the Pr-based end compounds with TRS breaking, and the time reversal preserving La-based materials, is difficult to account for and requires further studies.…”

Section: B Rare-earth Based Filled-skutteruditesmentioning

confidence: 99%

Recent progress on superconductors with time-reversal symmetry breaking

Ghosh

Smidman

Shang

et al. 2020

J. Phys.: Condens. Matter

104

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“…This discovery is very interesting because, so far, X elements are restricted to volatile and toxic pnictogens (X = P, As, Sb) rather than Ge. Furthermore, new germanium-platinum compounds LaPt 4 Ge 12 and PrPt 4 Ge 12 with the filled-skutterudite crystal structure have been synthesized by experimenters [49][50][51][52][53][54]. Magnetic susceptibility, specific heat, and electrical resistivity measurements indicate superconductivity in LaPt 4 Ge 12 and PrPt 4 Ge 12 below 8.3 K [49].…”

Section: Introductionmentioning

confidence: 99%

Electron-phonon superconductivity in the filled skutterudites LaRu4P12, LaRu4As12 , and
Tütüncü
¹
,
Karaca
²
,
Srivastava
³

2017
Phys. Rev. B

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We have reported on the structural, elastic, electronic, lattice dynamical and electron-phonon interaction properties of LaT 4 X 12 (T = Ru, Pt and X = P, As, Ge) by using the generalized gradient approximation of the density functional theory and the plane-wave pseudopotential method. These lanthanum-filled skutterudites are found to be characterized with a flat band, resulting in a sharp peak in the electronic density of states, near the Fermi level. The lattice dynamical properties of these materials change considerably when the P atom is replaced by larger As or Ge atoms. The Migdal-Eliashberg approach is used to determine the Eliashberg spectral function for all the considered compounds. Using the calculated Eliashberg spectral function, the value of average electron-phonon coupling parameter is found to be 0.74 for LaRu 4 P 12 , 1.03 for LaRu 4 As 12 , and 1.08 for LaPt 4 Ge 12 . The superconducting critical temperature (T c ) values for LaRu 4 P 12 , LaRu 4 As 12 , and LaPt 4 Ge 12 are estimated to be 6.95, 11.56, and 8.32 K, respectively, which compare well enough with their experimentally measured values of 7.2, 10.45, and 8.23 K.

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Superconducting gap structure of the skutteruditeLaPt4Ge12probed by specific heat and thermal transport

Cited by 13 publications

References 65 publications

Transport and Point Contact Measurements on Pr1−xCexPt4Ge12 Superconducting Polycrystals

Transport and Point Contact Measurements on Pr1−xCexPt4Ge12 Superconducting Polycrystals

Recent progress on superconductors with time-reversal symmetry breaking

Electron-phonon superconductivity in the filled skutterudites LaRu4P12, LaRu4As12 , and
Tütüncü
¹
,
Karaca
²
,
Srivastava
³

2017
Phys. Rev. B

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Superconducting gap structure of the skutteruditeLaPt4Ge12probed by specific heat and thermal transport

Cited by 13 publications

References 65 publications

Transport and Point Contact Measurements on Pr1−xCexPt4Ge12 Superconducting Polycrystals

Transport and Point Contact Measurements on Pr1−xCexPt4Ge12 Superconducting Polycrystals

Recent progress on superconductors with time-reversal symmetry breaking

Electron-phonon superconductivity in the filled skutterudites LaRu4P12, LaRu4As12 , and Tütüncü1, Karaca2, Srivastava3 2017Phys. Rev. B

Contact Info

Product

Resources

About

Electron-phonon superconductivity in the filled skutterudites LaRu4P12, LaRu4As12 , and
Tütüncü
¹
,
Karaca
²
,
Srivastava
³

2017
Phys. Rev. B