Wing structure in the phase diagram of the Ising ferromagnet URhGe close to its tricritical point investigated by angle-resolved magnetization measurements

Nakamura, Shota; Sakakibara, Toshiro; Shimizu, Yusei; Kittaka, Shunichiro; Kono, Yohei; Haga, Yoshinori; Pospíšil, Jiří; Yamamoto, Etsuji

doi:10.1103/physrevb.96.094411

Cited by 27 publications

(17 citation statements)

References 37 publications

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“…We assume this picture applicable to the other compounds too. When the applied field direction is rotated from the b-axis toward the easy axis c by the angle θ, the magnetization curves are measured by Nakamura, et al 64 . It is obvious that the measured magnetization M (θ) contains the contribution from the spontaneous moment M c projected onto the applied field direction, that is, M c sin(θ).…”

Section: A Rigid Rotation Picture: Spontaneous Moment Rotationmentioning

confidence: 99%

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Non-unitary triplet superconductivity tuned by field-controlled magnetization --URhGe, UCoGe and UTe$_2$--

Machida

2021

Preprint

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We report on a theoretical study on ferromagnetic superconductors, URhGe, and UCoGe and identify the pairing state as a non-unitary spin-triplet one with time reversal symmetry broken, analogous to superfluid 3 He-A phase. A recently found superconductor UTe2 with almost ferromagnet is analyzed by the same manner. Through investigating their peculiar upper critical field Hc2 shapes, it is shown that the pairing symmetry realized in all three compounds can be tuned by their magnetization curves under applied fields. This leads to the reentrant Hc2 in URhGe, an S-shaped in UCoGe and an L-shaped Hc2 in UTe2 observed under the field direction parallel to the magnetic hard b-axis in orthorhombic crystals in common. The identification with double chiral form: d(k) = ( b + iĉ)(k b + ikc) in UTe2 naturally enables us to understand (1) multiple phases with A1, A2, and A0 phases observed under pressure, (2) the enhanced reentrant Hc2 for the off-axis direction is associated with first order meta-magnetic transition, and (3) Weyl point nodes oriented along the magnetic easy a-axis. All three compounds are found to be topologically rich solid-state materials worth further investigation.

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Section: A Rigid Rotation Picture: Spontaneous Moment Rotationmentioning

confidence: 99%

“…This is confirmed experimentally at least lower fields up to H < 5T and T =2K 65 . Thus in this situation, we can extract the M b (H) curves by simply subtracting the contribution M c sin(θ) from the measured data 64 . The result is shown in Fig.…”

Section: A Rigid Rotation Picture: Spontaneous Moment Rotationmentioning

confidence: 99%

Non-unitary triplet superconductivity tuned by field-controlled magnetization --URhGe, UCoGe and UTe$_2$--

Machida

2021

Preprint

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“…In antiferromagnetic systems, a QCP has been achieved in several systems while a ferromagnetic QCP remains elusive [1]. In itinerant ferromagnetic systems generally a second-order phase transition turns into first-order at a tri-critical point (TCP) and forms so-called first order "wing structure" in temperaturepressure-field (T -P-H) phase diagram, eventually terminating at a quantum-critical-end point (QCEP) in magnetic field [1][2][3][4][5]. Another tuning parameter could be crystallographic orientation in strongly anisotropic magnets as in the case of URhGe [5,6].…”

Section: Introductionmentioning

confidence: 99%

Electrical Transport under Pressure in Non-centrosymmetric URhSn

Maurya

Honda

Shimizu

et al. 2020

Proceedings of J-Physics 2019: International Conference on Multipole Physics and Related Phenomena

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We report single crystal growth of the ternary non-centrosymmetric compound URhSn and effect of hydrostatic pressure on its binary transitions occurring at 54 K (T O) and 17 K (T C), respectively. The ground state of URhSn is ferromagnetic, while nature of the phase transition at 54 K is not yet wellestablished. We find that the T O is monotonically suppressed to 37 K at 5.91 GPa, and the anomaly at T C changes to 21.7 K at 3.62 GPa and then to 18 K at 5.91 GPa. Both the transitions show a declining trend with pressure at 5.91 GPa; we expect a complete suppression of T C and T O above 7 GPa. In our electrical resistance measurements a hysteresis revealing a change to first order above a critical pressure is not seen, neither any emergence of a new pressure induced phase is discernible up to 5.91 GPa.

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“…However, the transverse field configuration with H b attracted most attention, due to the observation of a strong field-induced reinforcement of SC on approaching the metamagnetic field H m ≈ 35 T. [13][14][15][16] Most of the published magne-tization data in FM SC deal with the field dependence of the FM interaction in longitudinal or transverse field scan. [17][18][19].…”

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Anomalous Anisotropy of the Lower Critical Field and Meissner Effect in UTe2

Paulsen,

Knebel,

Lapertot

et al. 2020

Preprint

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We report on low temperature susceptibility and magnetization measurements made on single crystals of the recently discovered heavy-fermion superconductor UTe2 and compare the results with the two ambient pressure ferromagnetic superconductors URhGe and UCoGe. Hysteresis curves in the superconducting phase show a familiar diamond shape superimposed on a large paramagnetic background. The Meissner state was measured by zero field cooling in small fields of a few Oe as well as ac susceptibility measurements in small fields and resulted in 100% shielding, with a sharp transition at 1.5K. However the field cooling Meissner-Ochsenfeld effect (expulsion of flux) was negligible in fields greater than just a few Oe, but becomes nearly 30% of the perfect diamagnetic signal when field was reduced to 0.01 Oe. The critical current due to flux pinning was studied by ac susceptibility techniques . The lower critical field Hc1 was found to be approximately 23 and 42 Oe along the a and b axis, respectively. The upper critical field Hc2 along the a axis was measured using bulk ac susceptibility measurements and found to be Hc2= 5.4 T in good agree with published resistivity measurements. Over the range in fields and temperature of this study, no signature of a ferromagnetic transition could be discerned, certainly not above Tc, nor below Tc where one might expect, for example, a break in the curves of Hc1 or Hc2 vs temperature to occur if a ferromagnetic transition took place.

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Wing structure in the phase diagram of the Ising ferromagnet URhGe close to its tricritical point investigated by angle-resolved magnetization measurements

Cited by 27 publications

References 37 publications

Non-unitary triplet superconductivity tuned by field-controlled magnetization --URhGe, UCoGe and UTe$_2$--

Non-unitary triplet superconductivity tuned by field-controlled magnetization --URhGe, UCoGe and UTe$_2$--

Electrical Transport under Pressure in Non-centrosymmetric URhSn

Anomalous Anisotropy of the Lower Critical Field and Meissner Effect in UTe2

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