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Currás, S. R.; Ferro, Gonzalo; González, M. Teresa; Ramallo, M. V.; Ruibal, M; Veira, J.A.; Wagner, Patrick; Vidal, F.

doi:10.1103/physrevb.68.094501

Cited by 40 publications

(49 citation statements)

References 54 publications

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“…26 Complementarily, the agreement with the GGL approach was extended to high reduced temperatures, for ε 0.1, by using a total-energy cutoff of the order of ε c ∼ 0.55, this last corresponding to the limit imposed by the uncertainty principle to the shrinkage of the superconducting wave function when the temperature increases. 36 This result further confirms our earlier conclusions, obtained through measurements of both the diamagnetism above T c , 3,13-16 and of the in-plane paraconductivity, 38 that the onset temperature, T c , for the superconducting fluctuations in underdoped cuprates is not affected by the opening of a pseudogap in their normal state. Indirectly, these last results also support recent proposals that the large Nernst signal observed in the normal state in LSCO is not associated with superconducting fluctuations.…”

Section: Discussionsupporting

confidence: 84%

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4
Mosqueira
¹
,
Dancausa
²
,
Vidal
³

2011
Phys. Rev. B
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The interplay between superconducting fluctuations and inhomogeneities presents a renewed interest due to recent works of different groups, which apparently support an intrinsically anomalous (beyond the conventional Gaussian-Ginzburg-Landau scenario) diamagnetism above T c in underdoped cuprates. This conclusion, mainly based in the observation of new anomalies in the isothermal magnetization curves at low-field amplitudes, is in contradiction with our earlier results in the underdoped La 1.9 Sr 0.1 CuO 4 [Phys. Rev. Lett. 84, 3157 (2000)]. These seemingly intrinsic anomalies are being presented in various influential works as a "thermodynamic evidence" for phase incoherent superconductivity in the pseudogap regime, this last being at present a central and debated issue of the cuprate superconductors' physics. To further probe the diamagnetism above T c in underdoped cuprates, here we have extended our magnetization measurements in La 1.9 Sr 0.1 CuO 4 to two samples with the same nominal composition but, due to different growth procedures, with different chemical disorder, in one of the samples this disorder being close to the intrinsic-like one, associated with the unavoidable random distribution of the Sr ions (which will be then present even in an ideal La 1.9 Sr 0.1 CuO 4 crystal). For this sample, the corresponding T c inhomogeneities may be approximated as symmetric around the average T c . In contrast, the most disordered sample presents a pronounced asymmetric T c distribution. The comparison between the magnetization measured in both samples provides a crucial check of the chemical disorder origin of the observed diamagnetism anomalies, which are similar to those claimed as due to phase fluctuations by other authors. This conclusion applies also to the sample affected only by the intrinsic-like chemical disorder, providing then a further check that, for all applied magnetic field amplitudes, the intrinsic diamagnetism above the superconducting transition of underdoped cuprates is not affected by the opening of a pseudogap in the normal state. It is also shown here that once these disorder effects are overcome, the remaining precursor diamagnetism may be accounted at a quantitative level in terms of the Gaussian-Ginzburg-Landau approach under a total energy cutoff.

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Section: Discussionsupporting

confidence: 84%

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4
Mosqueira
¹
,
Dancausa
²
,
Vidal
³

2011
Phys. Rev. B
Self Cite
16
7
29
0
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show abstract

“…8,9 The anomalies observed in some cases, in particular under low magnetic fields, could be easily explained in terms of T c -inhomogeneities with long characteristic lengths [much larger than ξ ab (0)], which do not directly affect the superconducting transition own nature. 7,10 Measurements of the in-plane paraconductivity 11 and of the heat capacity around T c 12 in these underdoped cuprates, together with analyses of the effects of T c -inhomogeneities with long characteristic lengths and of the background choice, 7,13,14 fully agree with these conclusions. In particular, they confirm that above a reduced temperature of the order of ε c = 0.5 the superconducting fluctuation effects vanish, as predicted by taking into account the limits imposed by the uncertainty principle to the shrinkage of the superconducting wavefunction.…”

supporting

confidence: 69%

Structural andTcinhomogeneities inherent to doping inLa2−xSrx
Mosqueira
¹
,
Cabo
²
,
Vidal
³

2009
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The inhomogeneities inherent to the random distribution of Sr dopants in La2−xSrxCuO4 superconductors are probed by measuring the x-ray diffraction linewidths and the Meissner transition widths, and then consistently explained on the grounds of a simple model in which the local Sr content is calculated by averaging over distances close to the in-plane electronic mean free path. By taking into account these intrinsic bulk inhomogeneities with long characteristic lengths (much larger than the superconducting coherence length amplitudes), the precursor diamagnetism measured above Tc, a fingerprint of the superconducting transition own nature, is then explained for all doping levels in terms of the conventional Gaussian-Ginzburg-Landau approach for layered superconductors. These results also suggest that the electronic inhomogeneities observed in the normal state by using surface probes overestimate the ones in the bulk.

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“…4 If this were the case, however, the most anisotropic cuprates ͓e.g., Bi 2 Sr 2 CaCu 2 O 8+␦ ͑BSCCO͔͒ should display an exponential temperature dependence in the enhancement of conductivity due to SC fluctuations at temperatures T Ͼ T c ͑the so-called paraconductivity͒ associated with vortical fluctuations, typical of a Kosterlitz-Thouless transition in two dimensions. 5 Instead, it is well documented [6][7][8][9][10][11][12][13][14][15][16][17] that paraconductivity in all the families of cuprates is fully accounted for by the standard AslamazovLarkin ͑AL͒ theory 18,19 based on Gaussian SC fluctuations, with the real and imaginary parts of the SC order parameter ⌬ fluctuating around zero. While YBa 2 Cu 3 O 7−x is less anisotropic and displays the AL behavior characteristic of threedimensional systems, all other compounds, which have a more anisotropic structure, display the standard AL behavior for two-dimensional ͑2D͒ systems.…”

Section: Introductionmentioning

confidence: 99%

Paraconductivity in layered cuprates behaves as if due to pairing of nearly free quasiparticles

2009

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We revisit the Aslamazov-Larkin theory of paraconductivity in two dimensions to identify its universal and its specific model-dependent features. We show that both the numerical prefactor and the temperature dependence of the experimental paraconductivity in underdoped La(2-x)Sr(x)CuO(4) provide evidence that the paired carriers behave as if they were nearly free fermionic quasiparticles. This conclusion is strengthened by the analysis of paraconductivity data in the presence of a finite magnetic field. In this case we show that there exists a temperature range above T(c) where the superconducting fluctuations are purely Gaussian and their destruction is determined by a rather low magnetic field scale H(c2)(G)(T=0)

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In-plane paraconductivity inLa2−xSrxCuO

Cited by 40 publications

References 54 publications

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4
Mosqueira
¹
,
Dancausa
²
,
Vidal
³

2011
Phys. Rev. B
Self Cite
16
7
29
0
View full text Add to dashboard Cite

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4
Mosqueira
¹
,
Dancausa
²
,
Vidal
³

2011
Phys. Rev. B
Self Cite
16
7
29
0
View full text Add to dashboard Cite

Structural andTcinhomogeneities inherent to doping inLa2−xSrx
Mosqueira
¹
,
Cabo
²
,
Vidal
³

2009
Phys. Rev. B
Self Cite
28
11
67
0
View full text Add to dashboard Cite

Paraconductivity in layered cuprates behaves as if due to pairing of nearly free quasiparticles

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In-plane paraconductivity inLa2−xSrxCuO

Cited by 40 publications

References 54 publications

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4Mosqueira1, Dancausa2, Vidal3 2011Phys. Rev. BSelf Cite167290View full textAdd to dashboardCite

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4Mosqueira1, Dancausa2, Vidal3 2011Phys. Rev. BSelf Cite167290View full textAdd to dashboardCite

Structural andTcinhomogeneities inherent to doping inLa2−xSrxMosqueira1, Cabo2, Vidal3 2009Phys. Rev. BSelf Cite2811670View full textAdd to dashboardCite

Paraconductivity in layered cuprates behaves as if due to pairing of nearly free quasiparticles

Contact Info

Product

Resources

About

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4
Mosqueira
¹
,
Dancausa
²
,
Vidal
³

2011
Phys. Rev. B
Self Cite
16
7
29
0
View full text Add to dashboard Cite

Diamagnetism above the superconducting transition in underdoped La1.9Sr0.1CuO4
Mosqueira
¹
,
Dancausa
²
,
Vidal
³

2011
Phys. Rev. B
Self Cite
16
7
29
0
View full text Add to dashboard Cite

Structural andTcinhomogeneities inherent to doping inLa2−xSrx
Mosqueira
¹
,
Cabo
²
,
Vidal
³

2009
Phys. Rev. B
Self Cite
28
11
67
0
View full text Add to dashboard Cite