Matrix product state investigations of time-dependent spectral functions after a photoexcitation
ORAL
Abstract
We study the time-dependent single-particle spectral function A(k,ω,t) after a photoexcitation of a variant of the 1d Hubbard model with a background staggered magnetic field using matrix product state (MPS) techniques.
In particular, we use the time-dependent variational principle (TDVP) to investigate the time evolution of the spectral weight, which is a quantity accessible to time-resolved ARPES experiments.
Different scenarios for the photoexcitations are discussed, e.g., Peierls-substitution or direct excitation in k-space.
Using MPS, we can study in detail the effect of the electron-electron interaction on the redistribution of the band populations in the various photoexcitation setups.
In particular, we use the time-dependent variational principle (TDVP) to investigate the time evolution of the spectral weight, which is a quantity accessible to time-resolved ARPES experiments.
Different scenarios for the photoexcitations are discussed, e.g., Peierls-substitution or direct excitation in k-space.
Using MPS, we can study in detail the effect of the electron-electron interaction on the redistribution of the band populations in the various photoexcitation setups.
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Presenters
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Constantin Meyer
University of Gottingen
Authors
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Constantin Meyer
University of Gottingen
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Salvatore R Manmana
Institute for Theoretical Physics, Georg-August Universität (Göttingen), University of Gottingen