ChemInform Abstract: Simulation of Crystal Structures by Empirical Atom-Atom Potentials. Part 3. Effects of Oxygen Atom Vacancies on the Crystal Structure and the Superconducting Transition Temperature of the High-Temperature Superconductor YBa2Cu3O7-y.

We investigated the effect of enhancement of superconducting transition temperature Tc by nonmagnetic atom disorder in the series of filled skutterudite-related compounds (La3M4Sn13, Ca3Rh4Sn13, Y5Rh6Sn18, Lu5Rh6Sn18; M= Co, Ru, Rh), where the atomic disorder is generated by various defects or doping. We have shown that the disorder on the coherence length scale ξ in these nonmagnetic quasiskutterudite superconductors additionally generates a non-homogeneous, high-temperature superconducting phase with Tc⋆>Tc (dilute disorder scenario), while the strong fluctuations of stoichiometry due to increasing doping can rapidly increase the superconducting transition temperature of the sample even to the value of Tc⋆∼2Tc (dense disorder leading to strong inhomogeneity). This phenomenon seems to be characteristic of high-temperature superconductors and superconducting heavy fermions, and recently have received renewed attention. We experimentally documented the stronger lattice stiffening of the inhomogeneous superconducting phase Tc⋆ in respect to the bulk Tc one and proposed a model that explains the Tc⋆>Tc behavior in the series of nonmagnetic skutterudite-related compounds.

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COMPOSITION DEPENDENCE OF SUPERCONDUCTIVITY AND CRYSTAL STRUCTURE IN La(Ba1−xCax)2Cu3O7−y SYSTEM

Modern Physics Letters B ◽

10.1142/s0217984989000492 ◽

1989 ◽

Vol 03 (04) ◽

pp. 307-311 ◽

Cited By ~ 4

Author(s):

N. CAO ◽

J.Q. ZHENG ◽

X.Y. SHAO ◽

X.S. CHEN ◽

W.Y. GUAN

Keyword(s):

Crystal Structure ◽

Transition Temperature ◽

Superconducting Transition Temperature ◽

Composition Dependence ◽

Superconducting Transition ◽

Orthorhombic Structure ◽

X Ray Diffraction ◽

X Ray ◽

Resistivity Measurements ◽

Zero Resistance

The composition dependence of superconductivity and crystal structure in La ( Ba 1−x Ca x)2 Cu 3 O 7−y system was determined by the resistivity measurements and X-ray diffraction analysis. The superconducting transition temperature is raised with the increase of Ca content till x=0.6, at which the zero resistance temperature of the sample is 81.5 K. In the meanwhile, the crystal structure of the sample changed from tetragonal (x=0) to orthorhombic structure (x=0.2, 0.4, 0.6). With further increase of Ca content, the superconductivity decrease for the sample of x=0.8 with mixed phases including the orthorhombic oxygen-deficient perovskite-like (ODP) structure and no superconducting transition is found at 4.2 K for the sample of x=1 without the ODP structure. A possible explanation of these experimental results is given.

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Evolution of atomic ordering in fine-grained YBa2Cu3O y high-temperature superconductors and its effect on superconducting transition temperature

Bulletin of the Russian Academy of Sciences Physics ◽

10.3103/s1062873813030258 ◽

2013 ◽

Vol 77 (3) ◽

pp. 242-245 ◽

Cited By ~ 1

Author(s):

L. G. Mamsurova ◽

K. S. Pigalskiy ◽

A. A. Vishnev

Keyword(s):

High Temperature ◽

Transition Temperature ◽

Superconducting Transition Temperature ◽

High Temperature Superconductors ◽

Superconducting Transition ◽

Atomic Ordering ◽

Fine Grained

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Volume dependence of the superconducting transition temperature for the high-temperature superconductorHgBa2Ca2−xPbxCu3O8+δ

Physical Review B ◽

10.1103/physrevb.50.13778 ◽

1994 ◽

Vol 50 (18) ◽

pp. 13778-13785 ◽

Cited By ~ 6

Author(s):

Charles C. Kim ◽

A. R. Drews ◽

E. F. Skelton ◽

S. B. Qadri ◽

M. S. Osofsky ◽

...

Keyword(s):

High Temperature ◽

Transition Temperature ◽

Superconducting Transition Temperature ◽

Superconducting Transition ◽

Volume Dependence

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Ultra-Low-Field Squid Magnetic Measurements on High Temperature Ceramic YBaCuO Superconductors

MRS Proceedings ◽

10.1557/proc-99-837 ◽

1987 ◽

Vol 99 ◽

Cited By ~ 1

Author(s):

D. C. Cronemeyer ◽

A. P. Malozemoff ◽

T. R. Mcguire

Keyword(s):

High Temperature ◽

Transition Temperature ◽

Ceramic Sample ◽

Superconducting Transition Temperature ◽

Magnetic Measurements ◽

Zero Field ◽

Superconducting Transition ◽

Temperature Range ◽

Low Field ◽

The Difference

ABSTRACTWe report ultra-low-field (5 mOe - 1 Oe) magnetic measurements on a ceramic sample of YBaCuO. A positive remanent moment is observed which accurately equals the difference of the field-cooled and zero-field-cooled moments throughout the temperature range. At higher fields this relationship breaks down. A reversible region is observed near the superconducting transition temperature which is independent of field. These results are discussed in the context of recent models.

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Melt Spinning and Phase Transformations of V2CrA11-xBx and Ti3Nb6Mo3Si4 Alloys

MRS Proceedings ◽

10.1557/proc-21-829 ◽

1983 ◽

Vol 21 ◽

Cited By ~ 3

Author(s):

B.S. Smith ◽

R.A. Smith ◽

M T. Clapp

Keyword(s):

Crystal Structure ◽

Transition Temperature ◽

Phase Transformations ◽

Superconducting Transition Temperature ◽

Melt Spinning ◽

Vickers Microhardness ◽

Lattice Parameter ◽

Rapid Quenching ◽

Superconducting Transition

ABSTRACTMelt spinning was used to rapidly quench V2CrA11-xBx and Ti3Nb6Mo3Si4 alloys. Melt spinning had very little effect on the crystal structure of the V2CrA11-xBx alloys. However, a new (NbTiMo)3 Si A–15 phase was found by rapid quenching of the Ti3Nb6Mo3Si4 alloys; the lattice parameter was 5.08 Å. Melt spinning increased the Vickers microhardness values of the V2CrA11-xBx alloys from 500 to 750, and of the Ti3Nb6Mo3Si4 alloys from 1000 to as high as 1675. Melt spinning increased the superconducting transition temperature of the Ti3Nb6Mo3Si4 alloys from 1.9 to 3.4K.

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High-temperature superconductivity in transition metallic hydrides MH11 (M = Mo, W, Nb, and Ta) under high pressure

Physical Chemistry Chemical Physics ◽

10.1039/d0cp06435a ◽

2021 ◽

Vol 23 (11) ◽

pp. 6717-6724

Author(s):

Mingyang Du ◽

Zihan Zhang ◽

Hao Song ◽

Hongyu Yu ◽

Tian Cui ◽

...

Keyword(s):

High Pressure ◽

High Temperature ◽

Transition Temperature ◽

Critical Temperature ◽

Superconducting Transition Temperature ◽

High Temperature Superconductivity ◽

Superconducting Transition ◽

Optical Phonons ◽

Acoustic Phonons ◽

Acoustic Modes

The contribution of optical and acoustic modes to the superconducting transition temperature. The calculated EPC parameter λ, critical temperature (Tc), critical temperature caused by the interaction of electrons with optical phonons (T0c) and acoustic phonons (Tacc).

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