Z. Bukowski scite author profile

a b s t r a c tA review of our investigations on single crystals of LnFeAsO 1Àx F x (Ln = La, Pr, Nd, Sm, Gd) and Ba 1Àx -Rb x Fe 2 As 2 is presented. A high-pressure technique has been applied for the growth of LnFeAsO 1Àx F x crystals, while Ba 1Àx Rb x Fe 2 As 2 crystals were grown using a quartz ampoule method. Single crystals were used for electrical transport, structure, magnetic torque and spectroscopic studies. Investigations of the crystal structure confirmed high structural perfection and show incomplete occupation of the (O, F) position in superconducting LnFeAsO 1Àx F x crystals. Resistivity measurements on LnFeAsO 1Àx F x crystals show a significant broadening of the transition in high magnetic fields, whereas the resistive transition in Ba 1Àx Rb x Fe 2 As 2 simply shifts to lower temperature. The critical current density for both compounds is relatively high and exceeds 2 Â 10 9 A/m 2 at 15 K in 7 T. The anisotropy of magnetic penetration depth, measured on LnFeAsO 1Àx F x crystals by torque magnetometry is temperature dependent and apparently larger than the anisotropy of the upper critical field. Ba 1Àx Rb x Fe 2 As 2 crystals are electronically significantly less anisotropic. Point-Contact Andreev-Reflection spectroscopy indicates the existence of two energy gaps in LnFeAsO 1Àx F x . Scanning Tunneling Spectroscopy reveals in addition to a superconducting gap, also some feature at high energy ($20 meV).

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Magnetic penetration depth of single-crystallineSmFeAsO1−xFy

Malone

et al. 2009

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Single crystals of superconducting SmFeAsO_1−xF_ygrown at high pressure

Zhigadlo

Katrych

Bukowski

et al. 2008

J. Phys.: Condens. Matter

140

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Single crystals of SmFeAsO1−xFy of a size up to 120 × 100 µm2 have been grown from NaCl/KCl flux at a pressure of 30 kbar and temperature of 1350-1450 °C using the cubic anvil high-pressure technique. The superconducting transition temperature of the obtained single crystals varies between 45 and 53 K. Obtained crystals are characterized by a full diamagnetic response in low magnetic fields and by a high critical current density in high magnetic fields. Structural refinement has been performed on the single crystal. Differential thermal analysis investigations at 1 bar Ar pressure show decomposition of SmFeAsO1−xFy at 1302 °C.Abstract. Single crystals of SmFeAsO 1-x F y of a size up to 120x100 μm 2 have been grown from NaCl/KCl flux at pressure of 30 kbar and temperature of 1350-1450 °C using cubic anvil high-pressure technique. Superconducting transition temperature of the obtained single crystals varies between 45 and 53 K. Obtained crystals are characterized by full diamagnetic response in low magnetic field and by high critical current density in high magnetic field. Structure refinement has been performed on single crystal. Differential thermal analysis investigations at 1 bar Ar pressure show decomposition of SmFeAsO 1-x F y at 1302 °C.

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Evidence of nodeless superconductivity inFeSe0.85from a muon-spin-rotation study of the in-plane magnetic penetration depth

et al. 2008

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The in-plane magnetic penetration depth ab of the iron selenide superconductor with the nominal composition FeSe 0.85 was studied by means of muon-spin rotation. The measurements of ab −2 ͑T͒ are inconsistent with a simple isotropic s-wave type of the order parameter but are rather in favor of two-gap ͑s + s͒ and anisotropic s-wave order parameter symmetries, thus implying that the superconducting energy gap in FeSe 0.85 contains no nodes.

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Structure-properties phase diagram forLa1−xSrxMnO
Dąbrowski
¹
,
Xiong
²
,
Bukowski
³

et al. 1999
Phys. Rev. B
200
19
87
0
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Observation of a Spin Gap in the Normal State of SuperconductingMo3Sb7

2008

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Magnetization, specific heat, and electrical resistivity measurements have been performed on the superconductor Mo(3)Sb(7). Two kinds of transitions are observed at 2.3 and 50 K, respectively. The former is superconducting transition, while the latter is attributed to spin-gap formation. From the analysis of the experimental data, excitation gap, intra- and interdimer interactions are estimated as Delta/k(b) approximately 120 K, J(0)/k(B) approximately 150 K, and J(1)/k(B) approximately 55 K. The electronic structure calculations using the LSDA approximation show nesting property in the Fermi surface, favoring the superconductivity.

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Anisotropy of Superconducting Single Crystal SmFeAsO0.8F0.2 Studied by Torque Magnetometry

Weyeneth

Puźniak

Mosele

et al. 2008

J Supercond Nov Magn

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Single crystals of the oxypnictide superconductor SmFeAsO 0.8 F 0.2 with T c ≃ 45(1) K were investigated by torque magnetometry. The crystals of mass ≤ 0.1 µg were grown by a high-pressure cubic anvil technique. The use of a high-sensitive piezoresistive torque sensor made it possible to study the anisotropic magnetic properties of these tiny crystals. The anisotropy parameter γ was found to be field independent, but varies strongly with temperature ranging from γ ≃ 8 at T T c to γ ≃ 23 at T ≃ 0.4T c . This unusual behavior of γ signals unconventional superconductivity.

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Quasiparticle relaxation dynamics in spin-density-wave and superconductingSmFeAsO1−xFxsingle crystals

et al. 2010

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We investigate the quasiparticle (QP) relaxation and low-energy electronic structure in undoped SmFeAsO and near-optimally doped SmFeAsO0.8F0.2 single crystals-exhibiting spin-density wave (SDW) ordering and superconductivity, respectively-using pump-probe femtosecond spectroscopy. In the undoped single crystals a single relaxation process is observed, showing a remarkable critical slowing down of the QP relaxation dynamics at the SDW transition temperature TSDW125 K. In the superconducting (SC) crystals multiple relaxation processes are present with distinct SC-state quasiparticle recombination dynamics exhibiting a BCS-like T-dependent superconducting gap, and a pseudogap (PG)-like feature with an onset above 180 K indicating the existence of a pseudogap of magnitude 2ΔPG120 meV above Tc. From the pump-photon energy dependence we conclude that the SC state and PG relaxation channels are independent, implying the presence of two separate electronic subsystems. We discuss the data in terms of spatial inhomogeneity and multiband scenarios, finding that the latter is more consistent with the present data.

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Z. Bukowski

Single crystals of LnFeAsO1−xFx (Ln=La, Pr, Nd, Sm, Gd) and Ba1−xRbxFe2As2: Growth, structure and superconducting properties

Magnetic penetration depth of single-crystallineSmFeAsO1−xFy

Single crystals of superconducting SmFeAsO_1−xF_ygrown at high pressure

Evidence of nodeless superconductivity inFeSe0.85from a muon-spin-rotation study of the in-plane magnetic penetration depth

Structure-properties phase diagram forLa1−xSrxMnO
Dąbrowski
¹
,
Xiong
²
,
Bukowski
³

et al. 1999
Phys. Rev. B
200
19
87
0
View full text Add to dashboard Cite

Observation of a Spin Gap in the Normal State of SuperconductingMo3Sb7

Anisotropy of Superconducting Single Crystal SmFeAsO0.8F0.2 Studied by Torque Magnetometry

Quasiparticle relaxation dynamics in spin-density-wave and superconductingSmFeAsO1−xFxsingle crystals

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Z. Bukowski

Single crystals of LnFeAsO1−xFx (Ln=La, Pr, Nd, Sm, Gd) and Ba1−xRbxFe2As2: Growth, structure and superconducting properties

Magnetic penetration depth of single-crystallineSmFeAsO1−xFy

Single crystals of superconducting SmFeAsO1−xFygrown at high pressure

Evidence of nodeless superconductivity inFeSe0.85from a muon-spin-rotation study of the in-plane magnetic penetration depth

Structure-properties phase diagram forLa1−xSrxMnODąbrowski1, Xiong2, Bukowski3 et al. 1999Phys. Rev. B20019870View full textAdd to dashboardCite

Observation of a Spin Gap in the Normal State of SuperconductingMo3Sb7

Anisotropy of Superconducting Single Crystal SmFeAsO0.8F0.2 Studied by Torque Magnetometry

Quasiparticle relaxation dynamics in spin-density-wave and superconductingSmFeAsO1−xFxsingle crystals

Contact Info

Product

Resources

About

Single crystals of superconducting SmFeAsO_1−xF_ygrown at high pressure

Structure-properties phase diagram forLa1−xSrxMnO
Dąbrowski
¹
,
Xiong
²
,
Bukowski
³

et al. 1999
Phys. Rev. B
200
19
87
0
View full text Add to dashboard Cite