LaFeAsO shows differing Weiss temperatures for shear-modulus-derived and elastoresistivity-derived nematic susceptibilities, unlike the matching behavior in BaFe2As2 that aligns with Landau theory.
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Non-Fermi liquids from critical fluctuations are grouped into seven superuniversality classes by the topology of projective fixed-point bundles, which fix universal pairing strengths and set lower bounds on superconducting transition temperatures and symmetries.
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Nematicity in LaFeAsO single crystals studied by elastoresistance, high-resolution thermal expansion and shear-modulus measurements
LaFeAsO shows differing Weiss temperatures for shear-modulus-derived and elastoresistivity-derived nematic susceptibilities, unlike the matching behavior in BaFe2As2 that aligns with Landau theory.
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Classification of non-Fermi liquids and universal superconducting fluctuations
Non-Fermi liquids from critical fluctuations are grouped into seven superuniversality classes by the topology of projective fixed-point bundles, which fix universal pairing strengths and set lower bounds on superconducting transition temperatures and symmetries.