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Literature DB >> 22401243

Textured superconducting phase in the heavy fermion CeRhIn5.

Tuson Park¹, H Lee, I Martin, X Lu, V A Sidorov, K Gofryk, F Ronning, E D Bauer, J D Thompson.

Abstract

When antiferromagnetism and unconventional superconductivity coexist in CeRhIn(5) there is a significant temperature difference between resistively and thermodynamically determined transitions into the superconducting state. In this state, anisotropic transport near the superconducting transition reveals the emergence of textured superconducting planes that appear without a change in translational symmetry of the lattice. CeRhIn(5) is not unique in exhibiting these behaviors, indicating that textured superconductivity may be a general consequence of coexisting orders in correlated electron materials.

Year: 2012 PMID： 22401243 DOI： 10.1103/PhysRevLett.108.077003

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

1. Electronic in-plane symmetry breaking at field-tuned quantum criticality in CeRhIn₅.

Authors: F Ronning; T Helm; K R Shirer; M D Bachmann; L Balicas; M K Chan; B J Ramshaw; R D McDonald; F F Balakirev; M Jaime; E D Bauer; P J W Moll
Journal: Nature Date: 2017-08-07 Impact factor: 49.962

2. Thermoelectric properties of heavy fermion CeRhIn₅ using density functional theory combined with semiclassical Boltzmann theory.

Authors: M Yazdani-Kachoei; S Jalali-Asadabadi
Journal: RSC Adv Date: 2019-11-06 Impact factor: 4.036

Textured superconducting phase in the heavy fermion CeRhIn5.

1. Electronic in-plane symmetry breaking at field-tuned quantum criticality in CeRhIn₅.

2. Thermoelectric properties of heavy fermion CeRhIn₅ using density functional theory combined with semiclassical Boltzmann theory.

3. A peak in the critical current for quantum critical superconductors.

4. Visualizing heavy fermion confinement and Pauli-limited superconductivity in layered CeCoIn₅.

5. Vortex phase diagram and the normal state of cuprates with charge and spin orders.

Textured superconducting phase in the heavy fermion CeRhIn5.

1. Electronic in-plane symmetry breaking at field-tuned quantum criticality in CeRhIn5.

2. Thermoelectric properties of heavy fermion CeRhIn5 using density functional theory combined with semiclassical Boltzmann theory.

3. A peak in the critical current for quantum critical superconductors.

4. Visualizing heavy fermion confinement and Pauli-limited superconductivity in layered CeCoIn5.

5. Vortex phase diagram and the normal state of cuprates with charge and spin orders.

1. Electronic in-plane symmetry breaking at field-tuned quantum criticality in CeRhIn₅.

2. Thermoelectric properties of heavy fermion CeRhIn₅ using density functional theory combined with semiclassical Boltzmann theory.

4. Visualizing heavy fermion confinement and Pauli-limited superconductivity in layered CeCoIn₅.