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Scale-invariant magnetoresistance in a cuprate superconductor.

P Giraldo-GalloJosé A GalvisZ StegenK A ModicFedor Fedorovich BalakirevJ B BettsX LianC MoirS C RiggsJie WuA T BollingerX HeIvan BožovićB J RamshawRoss D McDonaldG S BoebingerArkady Shekhter
Published in: Science (New York, N.Y.) (2018)
The anomalous metallic state in the high-temperature superconducting cuprates is masked by superconductivity near a quantum critical point. Applying high magnetic fields to suppress superconductivity has enabled detailed studies of the normal state, yet the direct effect of strong magnetic fields on the metallic state is poorly understood. We report the high-field magnetoresistance of thin-film La2-x Sr x CuO4 cuprate in the vicinity of the critical doping, 0.161 ≤ p ≤ 0.190. We find that the metallic state exposed by suppressing superconductivity is characterized by magnetoresistance that is linear in magnetic fields up to 80 tesla. The magnitude of the linear-in-field resistivity mirrors the magnitude and doping evolution of the well-known linear-in-temperature resistivity that has been associated with quantum criticality in high-temperature superconductors.
Keyphrases
  • high temperature
  • molecularly imprinted
  • molecular dynamics
  • magnetic resonance
  • quantum dots