2013
DOI: 10.1073/pnas.1218846110
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Spectroscopic evidence for Fermi liquid-like energy and temperature dependence of the relaxation rate in the pseudogap phase of the cuprates

Abstract: Cuprate high-T c superconductors exhibit enigmatic behavior in the nonsuperconducting state. For carrier concentrations near "optimal doping" (with respect to the highest T c s) the transport and spectroscopic properties are unlike those of a Landau-Fermi liquid. On the Mott-insulating side of the optimal carrier concentration, which corresponds to underdoping, a pseudogap removes quasiparticle spectral weight from parts of the Fermi surface and causes a breakup of the Fermi surface into disconnected nodal and… Show more

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Cited by 136 publications
(195 citation statements)
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“…Fermi-Dirac statistic underlying the quantum oscillations [1], single-parameter -quadratic in energy ω and temperature T -scaling in optical conductivity σ(ω, T ) (Ref. [2]), T 2 resistivity behavior extending over substantial Tregion in clean systems [3] and fulfillment of typical for conventional metals Kohler's rule in magnetotransport [4] are observations in favor of Fermi-liquid scenario.…”
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confidence: 97%
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“…Fermi-Dirac statistic underlying the quantum oscillations [1], single-parameter -quadratic in energy ω and temperature T -scaling in optical conductivity σ(ω, T ) (Ref. [2]), T 2 resistivity behavior extending over substantial Tregion in clean systems [3] and fulfillment of typical for conventional metals Kohler's rule in magnetotransport [4] are observations in favor of Fermi-liquid scenario.…”
mentioning
confidence: 97%
“…[23,[25][26][27]). In systems where impurity scattering dominates the carrier relaxation (quasiparticle decay) rate 1/τ , the Drude peak is centered at ω=0 regardless of how strong scattering becomes [2,23]. Electronelectron interactions make τ frequency-dependent but for Fermi-liquid-like ω 2 dependence σ(ω) still peaks at ω=0 (Ref.…”
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confidence: 99%
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“…Moreover, below a compound specific doping level, the low-temperature resistivity for both types of cuprates develops a logarithmic upturn that appears to be related to disorder, yet whose microscopic origin has remained unknown [1,[5][6][7]. In contrast, at high dopant concentrations, the cuprates are good metals with welldefined Fermi surfaces and clear evidence for Fermi-liquid (FL) behavior [8][9][10][11][12][13][14].In a new development, the hole-doped cuprates were found to exhibit FL properties in an extended temperature range below the characteristic temperature T * * (T * * < T * ; T * is the PG temperature): (i) the resistivity per CuO 2 sheet exhibits a universal, quadratic temperature dependence, and is inversely proportional to the doped carrier density p, ρ ∝ T 2 /p [15]; (ii) Kohler's rule for the magnetoresistvity, the characteristic of a conventional metal with a single relaxation rate, is obeyed, with a Fermi-liquid scattering rate, 1/τ ∝ T 2 [16]; (iii) the optical scattering rate exhibits the quadratic frequency dependence and the temperature-frequency scaling expected for a Fermi liquid [17]. In this part of the phase diagram, the Hall coefficient is known to be approximately independent of temperature and to take on a value that corresponds to p, R H ∝ 1/p [18].…”
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confidence: 99%
“…This leads to universal ω/T scaling of the optical conductivity σ(ω) in the thermal regime ħ hω ∼ k B T [14]. Surprisingly however, despite almost 60 years of research on Fermi liquids, this universal behavior of the optical response, and especially the specific statistical factor p = 2 relating the energy and temperature dependence have not yet been established experimentally [13][14][15][16][17].Here, we report optical measurements of Sr 2 RuO 4 with 0.1 meV resolution [18,19] which reveal this universal FL scaling law [20]. We establish experimentally the universal value p = 2 and demonstrate remarkable agreement between the experimental data and the theoretically derived scaling functions in the FL regime.…”
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confidence: 99%