Incipient loop-current order in the underdoped cuprate superconductors

Sarkar, Saheli; Chakraborty, Debmalya; Pépin, C.

doi:10.1103/physrevb.100.214519

Cited by 9 publications

(10 citation statements)

References 136 publications

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“…Our recent results in spin-ladders [37] shows that local discrete symmetries are also broken in 1D spin liquid systems, as it has been theoretically predicted. In other models, based on a PDW state [39,40] or a fractionalized PDW instability [41], the PG is described as a highly fluctuating state, where a preemptive phase breaking both T-and P-symmetries (a LC-like phase) is expected at higher temperature. More generally, discrete symmetry breaking usually happens at higher temperature than continuous symmetry breaking.…”

Section: Loop Currents and Pseudogapmentioning

confidence: 99%

“…For instance in Ref. [41], one starts with two primary states reported at lower temperature deep in the PG state (namely, the incipient CDW and superconductivity, both carrying a d -wave symmetry). The PG state is proposed to be a composite multi-component order parameter, where the system fluctuates between the two primary states which are intertwined.…”

Section: Loop Currents and Pseudogapmentioning

confidence: 99%

“…terms of a so-called "ancillary state" inseparable from the PG state [38][39][40][41]. The ancillary state is a secondary instability associated to a mother instability which itself effectively opens the PG.…”

Section: Introductionmentioning

confidence: 99%

“…The ancillary state is a secondary instability associated to a mother instability which itself effectively opens the PG. For instance, it can correspond to pair-density-wave (PDW) states [39][40][41]. Within these approaches, it was first pointed out by Agterberg et al [39] that the LC phase necessarily happens owing to the symmetry and is therefore essential to capture the specific nature of the PG.…”

Section: Introductionmentioning

confidence: 99%

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Loop currents in quantum matter

Bourgès¹,

Bounoua²,

Sidis³

2022

Comptes Rendus. Physique

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In many quantum materials, strong electron correlations lead to the emergence of new states of matter. In particular, the study in the last decades of the complex phase diagram of high temperature superconducting cuprates highlighted intra-unit-cell electronic instabilities breaking discrete Ising-like symmetries, while preserving the lattice translation invariance. Polarized neutron diffraction experiments have provided compelling evidences supporting a new form of intra-unit-cell magnetism, emerging concomitantly with the so-called pseudogap state of these materials. This observation is currently interpreted as the magnetic hallmark of an intra-unit-cell loop current order, breaking both parity and time-reversal symmetries. More generally, this magneto-electric state is likely to exist in a wider class of quantum materials beyond superconducting cuprates. For instance, it has been already observed in hole-doped Mott insulating iridates or in the spin liquid state of hole-doped 2-leg ladder cuprates.

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Section: Loop Currents and Pseudogapmentioning

confidence: 99%

Section: Loop Currents and Pseudogapmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Loop currents in quantum matter

Bourgès¹,

Bounoua²,

Sidis³

2022

Comptes Rendus. Physique

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show abstract

“…n recent years, the study of doped Mott insulators, such as superconducting (SC) cuprates [1][2][3][4][5] or iridates 6 , raised the question of the existence of other kinds of magnetism. Beyond conventional spin magnetism, a new form of magnetism may originate from magneto-electric loop currents (LCs) [7][8][9][10][11][12][13] or Dirac multipoles [14][15][16][17] . While most of these states are usually discussed for hole-doped quasi-2D transition metal oxides such as cuprates and iridates, the existence of LCs was also addressed in quasi-1D spin ladder cuprates [18][19][20] .…”

mentioning

confidence: 99%

Loop currents in two-leg ladder cuprates

et al. 2020

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New phases with broken discrete Ising symmetries are uncovered in quantum materials with strong electronic correlations. The two-leg ladder cuprate Sr 14−x Ca x Cu 24 O 41 hosts a very rich phase diagram where, upon hole doping, the system exhibits a spin liquid state ending to an intriguing ordered magnetic state at larger Ca content. Using polarized neutron diffraction, we report here the existence of short range magnetism in this material for two Ca contents, whose origin cannot be ascribed to Cu spins. This magnetism develops exclusively within the two-leg ladders with a diffraction pattern at forbidden Bragg scattering, which is the hallmark of loop current-like magnetism breaking both time-reversal and parity symmetries. Our discovery shows local discrete symmetry breaking in a one dimensional spin liquid system as theoretically predicted. It further suggests that a loop current-like phase could trigger the long range magnetic order reported at larger doping in two-leg ladder cuprates.

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Hidden magnetic texture in the pseudogap phase of high-Tc YBa2Cu3O6.6

et al. 2022

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Despite decades of intense research, the enigmatic pseudo-gap (PG) phase of superconducting cuprates remains unsolved. In the last 15 years, various symmetry breaking states were discovered in the PG phase, including an intra-unit cell (IUC) magnetism, which preserves the lattice translational (LT) symmetry but breaks the time-reversal and parity symmetries, and an additional incipient charge density wave breaking the LT symmetry. However, none of these states can (alone) account for the partial gapping of the Fermi surface. Here we report a hidden LT-breaking magnetism using polarized neutron diffraction. Our measurements reveal magnetic correlations, in two different underdoped YBa2Cu3O6.6 single crystals that set in at the PG onset temperature with (i) a planar propagation wave vector (π, 0) ≡ (0, π), yielding a doubling or quadrupling of the magnetic unit cell and (ii) magnetic moments mainly pointing perpendicular to the CuO2 layers. The LT-breaking magnetism is at short-range suggesting the formation of clusters of 5–6 unit cells. Together with the previously reported IUC magnetism, it yields a hidden magnetic texture of the CuO2 unit cells hosting loop currents, forming large supercells that may be helpful for elucidating the PG puzzle.

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Incipient loop-current order in the underdoped cuprate superconductors

Cited by 9 publications

References 136 publications

Loop currents in quantum matter

Loop currents in quantum matter

Loop currents in two-leg ladder cuprates

Hidden magnetic texture in the pseudogap phase of high-Tc YBa2Cu3O6.6

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