SAMOP 2023 –
wissenschaftliches Programm
QI 13: Quantum Simulation
Dienstag, 7. März 2023, 11:00–13:00, F428
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11:00 |
QI 13.1 |
Quantum simulation of graph complexity problems — •Durga Dasari and Joerg Wrachtrup
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11:15 |
QI 13.2 |
Quantum simulations of infinite spin transverse field Ising model using the variational quantum eigensolver algorithm — •Sumeet Sumeet, Max Hörmann, and Kai P. Schmidt
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11:30 |
QI 13.3 |
Toolbox for the digital twin of a Rydberg atom QPU — •Daniel Jaschke, Alice Pagano, Sebastian Weber, and Simone Montangero
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11:45 |
QI 13.4 |
Accessing entanglement phase transitions from fluctuations — •Teemu Ojanen, Ali Moghaddam, and Kim Pöyhönen
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12:00 |
QI 13.5 |
Signatures of MBL in a dilute gas of ultracold polar molecules in a 2D optical lattice — •Timothy J. Harris, Andrew J. Groszek, Arghavan Safavi-Naini, and Matthew J. Davis
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12:15 |
QI 13.6 |
Confinement and phase diagrams of one-dimensional Z2 lattice gauge theory — •Matjaž Kebrič, Jad C. Halimeh, Christian Reinmoser, Ulrich Schollwöck, Luca Barbiero, Annabelle Bohrdt, and Fabian Grusdt
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12:30 |
QI 13.7 |
Time Evolution of Matrix Product States Using Adaptive Subspace Expansion — •Tizian Blatz, Sebastian Paeckel, and Martin Grundner
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12:45 |
QI 13.8 |
Confinement in doped Z2 lattice gauge theories — •Simon Linsel, Lukas Homeier, Annabelle Bohrdt, and Fabian Grusdt
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