Unveiling the vortex glass phase in the surface and volume of a type-II superconductor

Jazmín Aragón Sánchez; Raúl Cortés Maldonado; Néstor R. Cejas Bolecek; Gonzalo Rumi; Pablo Pedrazzini; Moira I. Dolz; Gladys Nieva; Cornelis J.van der Beek; Marcin Konczykowski; Charles D. Dewhurst; Robert Cubitt; Alejandro B. Kolton; Alain Pautrat; Yanina Fasano

doi:10.1038/s42005-019-0243-4

Unveiling the vortex glass phase in the surface and volume of a type-II superconductor

Jazmín Aragón Sánchez
, Raúl Cortés Maldonado
, Néstor R. Cejas Bolecek
, Gonzalo Rumi
, Pablo Pedrazzini
, Moira I. Dolz
, Gladys Nieva
, Cornelis J.van der Beek
, Marcin Konczykowski
, Charles D. Dewhurst
, Robert Cubitt
, Alejandro B. Kolton
, Alain Pautrat
, Yanina Fasano

Research output: Contribution to journal › Article › peer-review

Abstract

Order-disorder transitions between glassy phases are common in nature and yet a comprehensive survey on the entailed structural changes is challenging since the constituents are in the micro-scale. Vortex matter in type-II superconductors is a model system where some of these experimental challenges can be tackled. Samples with point disorder present a glassy transition on increasing the density of vortices. A glassy yet quasi-crystalline phase, the Bragg glass, nucleates at low densities. The vortex glass stable at high densities is expected to be disordered, however its detailed structural properties remained experimentally elusive. Here we show that the vortex glass has large crystallites with in-plane positional displacements growing algebraically and short-range orientational order. Furthermore, the vortex glass has a finite and almost constant correlation length along the direction of vortices, in sharp contrast with strong entanglement. These results are important for the understanding of disorder-driven phase transitions in glassy condensed matter.

Original language	English
Article number	143
Journal	Communications Physics
Volume	2
Issue number	1
DOIs	https://doi.org/10.1038/s42005-019-0243-4
Publication status	Published - 1 Dec 2019
Externally published	Yes

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Aragón Sánchez, J., Cortés Maldonado, R., Cejas Bolecek, N. R., Rumi, G., Pedrazzini, P., Dolz, M. I., Nieva, G., Beek, C. J. V. D., Konczykowski, M., Dewhurst, C. D., Cubitt, R., Kolton, A. B., Pautrat, A., & Fasano, Y. (2019). Unveiling the vortex glass phase in the surface and volume of a type-II superconductor. Communications Physics, 2(1), Article 143. https://doi.org/10.1038/s42005-019-0243-4

@article{447ff5e2ff104f08880442a292e160b1,

title = "Unveiling the vortex glass phase in the surface and volume of a type-II superconductor",

abstract = "Order-disorder transitions between glassy phases are common in nature and yet a comprehensive survey on the entailed structural changes is challenging since the constituents are in the micro-scale. Vortex matter in type-II superconductors is a model system where some of these experimental challenges can be tackled. Samples with point disorder present a glassy transition on increasing the density of vortices. A glassy yet quasi-crystalline phase, the Bragg glass, nucleates at low densities. The vortex glass stable at high densities is expected to be disordered, however its detailed structural properties remained experimentally elusive. Here we show that the vortex glass has large crystallites with in-plane positional displacements growing algebraically and short-range orientational order. Furthermore, the vortex glass has a finite and almost constant correlation length along the direction of vortices, in sharp contrast with strong entanglement. These results are important for the understanding of disorder-driven phase transitions in glassy condensed matter.",

author = "\{Arag{\'o}n S{\'a}nchez\}, Jazm{\'i}n and \{Cort{\'e}s Maldonado\}, Ra{\'u}l and \{Cejas Bolecek\}, \{N{\'e}stor R.\} and Gonzalo Rumi and Pablo Pedrazzini and Dolz, \{Moira I.\} and Gladys Nieva and Beek, \{Cornelis J.van der\} and Marcin Konczykowski and Dewhurst, \{Charles D.\} and Robert Cubitt and Kolton, \{Alejandro B.\} and Alain Pautrat and Yanina Fasano",

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year = "2019",

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doi = "10.1038/s42005-019-0243-4",

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Aragón Sánchez, J, Cortés Maldonado, R, Cejas Bolecek, NR, Rumi, G, Pedrazzini, P, Dolz, MI, Nieva, G, Beek, CJVD, Konczykowski, M, Dewhurst, CD, Cubitt, R, Kolton, AB, Pautrat, A & Fasano, Y 2019, 'Unveiling the vortex glass phase in the surface and volume of a type-II superconductor', Communications Physics, vol. 2, no. 1, 143. https://doi.org/10.1038/s42005-019-0243-4

TY - JOUR

T1 - Unveiling the vortex glass phase in the surface and volume of a type-II superconductor

AU - Aragón Sánchez, Jazmín

AU - Cortés Maldonado, Raúl

AU - Cejas Bolecek, Néstor R.

AU - Rumi, Gonzalo

AU - Pedrazzini, Pablo

AU - Dolz, Moira I.

AU - Nieva, Gladys

AU - Beek, Cornelis J.van der

AU - Konczykowski, Marcin

AU - Dewhurst, Charles D.

AU - Cubitt, Robert

AU - Kolton, Alejandro B.

AU - Pautrat, Alain

AU - Fasano, Yanina

PY - 2019/12/1

Y1 - 2019/12/1

N2 - Order-disorder transitions between glassy phases are common in nature and yet a comprehensive survey on the entailed structural changes is challenging since the constituents are in the micro-scale. Vortex matter in type-II superconductors is a model system where some of these experimental challenges can be tackled. Samples with point disorder present a glassy transition on increasing the density of vortices. A glassy yet quasi-crystalline phase, the Bragg glass, nucleates at low densities. The vortex glass stable at high densities is expected to be disordered, however its detailed structural properties remained experimentally elusive. Here we show that the vortex glass has large crystallites with in-plane positional displacements growing algebraically and short-range orientational order. Furthermore, the vortex glass has a finite and almost constant correlation length along the direction of vortices, in sharp contrast with strong entanglement. These results are important for the understanding of disorder-driven phase transitions in glassy condensed matter.

AB - Order-disorder transitions between glassy phases are common in nature and yet a comprehensive survey on the entailed structural changes is challenging since the constituents are in the micro-scale. Vortex matter in type-II superconductors is a model system where some of these experimental challenges can be tackled. Samples with point disorder present a glassy transition on increasing the density of vortices. A glassy yet quasi-crystalline phase, the Bragg glass, nucleates at low densities. The vortex glass stable at high densities is expected to be disordered, however its detailed structural properties remained experimentally elusive. Here we show that the vortex glass has large crystallites with in-plane positional displacements growing algebraically and short-range orientational order. Furthermore, the vortex glass has a finite and almost constant correlation length along the direction of vortices, in sharp contrast with strong entanglement. These results are important for the understanding of disorder-driven phase transitions in glassy condensed matter.

U2 - 10.1038/s42005-019-0243-4

DO - 10.1038/s42005-019-0243-4

M3 - Article

AN - SCOPUS:85075164726

SN - 2399-3650

VL - 2

JO - Communications Physics

JF - Communications Physics

IS - 1

M1 - 143

ER -

Unveiling the vortex glass phase in the surface and volume of a type-II superconductor

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