Spatially and temporally resolved photoinduced quasiparticle dynamics in optimally doped La-Bi2201 reveal that threshold fluences for superconducting and pseudogap states closely track each other, indicating robust local correlation despite differing spatial uniformities.
Equivalence of pseudogap and pairing energy in a cuprate high-temperature superconductor
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Local pairing amplitude with short-range phase coherence exists in the pseudogap phase of YBCO up to T*, enabling parametric amplification of Josephson plasma waves via a Floquet framework.
Proposes geometric orthogonal metals from fluctuating stripes as the origin of the pseudogap, featuring hidden antiferromagnetism and a transition to a Fermi liquid at a hidden quantum critical point.
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Possible Spatial Correlation of Superconducting and Pseudogap Dynamics in a Bi-based Cuprate
Spatially and temporally resolved photoinduced quasiparticle dynamics in optimally doped La-Bi2201 reveal that threshold fluences for superconducting and pseudogap states closely track each other, indicating robust local correlation despite differing spatial uniformities.
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Parametrically amplified Josephson plasma waves in YBa_2Cu_3O_(6+x): evidence for local superconducting fluctuations up to the pseudogap temperature $T^*$
Local pairing amplitude with short-range phase coherence exists in the pseudogap phase of YBCO up to T*, enabling parametric amplification of Josephson plasma waves via a Floquet framework.
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Geometric orthogonal metals: Hidden antiferromagnetism and pseudogap from fluctuating stripes
Proposes geometric orthogonal metals from fluctuating stripes as the origin of the pseudogap, featuring hidden antiferromagnetism and a transition to a Fermi liquid at a hidden quantum critical point.