FM 75: Quantum Computation: Simulation II
Thursday, September 26, 2019, 14:00–15:45, 1010
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14:00 |
FM 75.1 |
Finding symmetry-broken ground states with variational quantum algorithms — •Nicolas Vogt, Sebastian Zanker, Jan-Michael Reiner, Thomas Eckl, Anika Marusczyk, and Michael Marthaler
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14:15 |
FM 75.2 |
Finding the ground state of the Hubbard model by variational methods on a quantum computer with gate errors — •Jan-Michael Reiner, Frank Wilhelm-Mauch, Gerd Schön, and Michael Marthaler
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14:30 |
FM 75.3 |
Robust Hamiltonian learning of Bose-Hubbard models — •Ingo Roth, Dominik Hangleiter, Lara Booth, Christian Krumnow, Juani Bermejo-Vega, and Jens Eisert
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14:45 |
FM 75.4 |
Spectral properties of optically driven one-dimensional extended Hubbard model: An exact diagonalization study — •Junichi Okamoto and Shunsuke A. Sato
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15:00 |
FM 75.5 |
Functional renormalization group analysis of the response functions of the 2D Hubbard model — •Sarah Heinzelmann, Cornelia Hille, Agnese Tagliavini, Stefan Käser, Philipp Hansmann, Carsten Honerkamp, Alessandro Toschi, and Sabine Andergassen
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15:15 |
FM 75.6 |
Closing the gaps of a quantum advantage with short-time Hamiltonian dynamics — •Jonas Haferkamp, Dominik Hangleiter, Adam Bouland, Bill Fefferman, Jens Eisert, and Juani Bermejo-Vega
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15:30 |
FM 75.7 |
Simulating non-equilibrium two-electron transfer on a noisy quantum computer — •Sabine Tornow
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