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The coexistence of ferromagnetism and superconductivity is a rare and surprising phenomenon. Three resent studies carried out in our institute help understand the pairing mechanism is these systems.
The first study was able to explain the spectacular anisotropy of the upper critical field in UCoGe, whereas this compound has rather isotropic electronic properties in its normal state . We have shown that this anisotropy stems from the strong suppression of the pairing strength when the applied field is aligned with the easy ferromagnetic axis. We have established a quantitative relation between this, and the suppression of the ferromagnetic fluctuations and the electronic correlations. A further step has now been made in the fine understanding of the pairing mechanism through a set of experiments on the compound URhGe under uniaxial stress . The behaviour under magnetic field of this system was already known to be quite remarkable: when a magnetic field is applied along the b-axis (perpendicular to the easy c-axis), superconductivity is initially destroyed as is normal in any superconductor. However as the field is further increased, superconductivity reappears, and the maximum superconducting critical temperature is achieved for a field of about 12T ! Applying uniaxial stress we have found that this field decreases strongly and that the two superconducting pockets merge (Figure). Simultaneously the critical temperature increases significantly, both at zero field and under field. We have found that this reinforcement of superconductivity is correlated to the increase of the magnetic susceptibility along the b-axis, perpendicular to the easy axis, showing that the transverse fluctuations are favourable for superconductivity. This is in contradiction with the initial theoretical models for ferromagnetic superconductors, but is in agreement with the predictions of a recent theoretical study in our institute, showing that these ferromagnetic superconductors must be considered as « multiband » superconductors . In this case, the inter-band coupling (carried here by the transverse ferromagnetic fluctuations) enhances the critical temperature. This effect is predicted for all multiband superconductors like the iron based pnictides or MgB2, though it has never been tested as directly as in the present study.
Figure: (T-H) phase diagram of superconductivity in URhGe for different values of uniaxial stress applied along the b-axis. The magnetic field is also applied along the b-axis. The c-axis is the easy ferromagnetic axis.
The experimental studies are carried out on single crystals grown by the Czochralski technique in a tetra-arc furnace within PHELIQs. The measurement under stress is performed in a new device allowing the in situ application of uniaxial stress in a dilution cryostat with a magnetic field up to 8T, and the upper critical field anisotropy was determined by thermal conductivity measurements in a dilution cryostat with 2-axis in situ rotation and a maximum field of 15T.
Pairing mechanism in the ferromagnetic superconductor UCoGe.
Nature Communications, 2017, 8: article number 14480
 Braithwaite D, Aoki D, Brison JP, Flouquet J, Knebel G, Nakamura A and Pourret A
Dimensionality driven enhancement of ferromagnetic superconductivity in URhGe.
Physical Review Letters, 2018, 120(3): 037001
 VP Mineev
Superconductivity in the ferromagnet URhGe under uniaxial pressure.
Physical Review B, 2017, 96(10): 104501
Thesis presented September 28, 2016 by Lars Elster. PhD thesis available as a pdf file.
Thesis presented October 17, 2014 by Mounir Boukahil. PhD thesis available as a pdf file.
Thesis presented November 06, 2013 by Caroline Richard. PhD thesis available as a pdf file.
Thesis presented September 28, 2011 by Valentin Taufour. PhD thesis available as a pdf file.
CEA is a French government-funded technological research organisation in four main areas: low-carbon energies, defense and security, information technologies and health technologies. A prominent player in the European Research Area, it is involved in setting up collaborative projects with many partners around the world.