Quantum critical behaviour in the superfluid density of strongly underdoped ultrathin copper oxide films

Hetel, I.; Lemberger, Thomas R.; Randeria, Mohit

doi:10.1038/nphys707

Cited by 135 publications

(154 citation statements)

References 25 publications

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“…We note that in the cuprates, there is a superconductor-insulator transition at a non-zero x = x c , and in its immediate vicinity distinct quantum critical behavior of ρ s is expected, as has been observed recently [25]. However, in characterizing different theories of the underdoped regime, it is useful to consider the behavior as x → 0 assuming the superconductivity survives until x = 0.…”

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confidence: 99%

Algebraic charge liquids

et al. 2007

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Soon after the discovery of high temperature superconductivity, Anderson [6] presented influential ideas on its connection to a novel type of insulator, in which the electron falls apart into emergent fractional particles which separately carry its spin and charge. These ideas have been extensively developed [7], and can explain the nodal zero-energy electron states in the superconductor. However, it is now known that the actual cuprate insulators are not of this type, and instead have conventional antiferromagnetic order, with the electron spins aligned in a checkerboard pattern on the square lattice. A separate set of ideas [8] take the presence of antiferromagnetic order in the insulator seriously, but require a specific effort to induce zero energy nodal electrons in the superconductor.Our theory of algebraic charge liquids (ACLs) uses the the recently developed theoretical

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Algebraic charge liquids

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“…͑2͒ with n = 1 is satisfied, which is certainly the case for totally uncoupled cells. The best situation to analyze this effect in real systems is provided by the finite-frequency sheet conductivity measurements of thin Y 1−x Ca x Ba 2 Cu 3 O 7−␦ ͑YBCO͒ films by Hetel et al 11 Indeed, in these two-unit-cell thick samples, the superfluid-density downturn is necessarily between T BKT n=1 and T BKT n=2 , and its exact form depends on the relative strength of J Ќ and vortex-core energy. As we shall see, this allows us to extract from the data of Ref.…”

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“…Indeed, in this case, the transition is ultimately of Beresinkii-KosterlitzThouless ͑BKT͒ type, as it is signaled by the linear relation between T c and J s , and its persistence as doping is changed by the electric-field effect 9,10 or chemical doping. 11 To clarify the role played by the vortex-core energy, let us recall some basic features of the BKT physics in a SC film made of few unit cells. In Y-based cuprates, whose data we will analyze below, there are two strongly coupled CuO 2 layers within each cell, which will be considered in what follows as the basic two-dimensional ͑2D͒ unit of the layered system, of thickness d = 12 Å, corresponding to the unit-cell size in the c direction.…”

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Doping dependence of the vortex-core energy in bilayer films of cuprates

2008

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The energy needed to create a vortex core is the basic ingredient to address the physics of thermal vortex fluctuations in underdoped cuprates. Here, we theoretically investigate its role in the occurrence of the Beresinskii-Kosterlitz-Thouless transition in a bilayer film with inhomogeneity. From the comparison with recent measurements of the penetration depth in two-unit-cell thin films, we can extract the value of the vortex-core energy and show that scales linearly with T c at low doping.

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“…T wo-dimensional (2D) superconductors provide insights into the mechanisms of superconductivity and their possible device applications [1][2][3][4][5][6][7][8][9][10][11] . Bi2212 is a quasi-2D cuprate in which thin superconducting sheets (CuO 2 ) alternate with insulating layers (SrO, BiO).…”

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High-Tc superconductivity in ultrathin Bi2Sr2CaCu2O8+x down to half-unit-cell thickness by protection with graphene

Jiang

You

et al. 2014

Nat Commun

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High-T c superconductors confined to two dimension exhibit novel physical phenomena, such as superconductor-insulator transition. In the Bi 2 Sr 2 CaCu 2 O 8 þ x (Bi2212) model system, despite extensive studies, the intrinsic superconducting properties at the thinness limit have been difficult to determine. Here, we report a method to fabricate high quality single-crystal Bi2212 films down to half-unit-cell thickness in the form of graphene/Bi2212 van der Waals heterostructure, in which sharp superconducting transitions are observed. The heterostructure also exhibits a nonlinear current-voltage characteristic due to the Dirac nature of the graphene band structure. More interestingly, although the critical temperature remains essentially the same with reduced thickness of Bi2212, the slope of the normal state T-linear resistivity varies by a factor of 4-5, and the sheet resistance increases by three orders of magnitude, indicating a surprising decoupling of the normal state resistance and superconductivity. The developed technique is versatile, applicable to investigate other two-dimensional (2D) superconducting materials.

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Quantum critical behaviour in the superfluid density of strongly underdoped ultrathin copper oxide films

Cited by 135 publications

References 25 publications

Algebraic charge liquids

Algebraic charge liquids

Doping dependence of the vortex-core energy in bilayer films of cuprates

High-Tc superconductivity in ultrathin Bi2Sr2CaCu2O8+x down to half-unit-cell thickness by protection with graphene

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