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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A time-dependent partial density of states is defined and computed for laser-driven materials, illustrated on wurtzite ZnO to reveal bond structure in the dressed electron density.
NESSi 2.0 reduces nonequilibrium Green's function simulation cost from O(N_t^3) to O(N_t N_c^2) via memory cutoff and adds tools for nonequilibrium steady states relevant to transport and prethermal dynamics.
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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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Laser-dressed partial density of states
A time-dependent partial density of states is defined and computed for laser-driven materials, illustrated on wurtzite ZnO to reveal bond structure in the dressed electron density.
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NESSi 2.0: The Non-Equilibrium Systems Simulation package version 2.0
NESSi 2.0 reduces nonequilibrium Green's function simulation cost from O(N_t^3) to O(N_t N_c^2) via memory cutoff and adds tools for nonequilibrium steady states relevant to transport and prethermal dynamics.