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@INPROCEEDINGS{Vodeb:1031990,
      author       = {Vodeb, Jaka and Desaules, Jean-Yves and Hallam, Andrew and
                      Rava, Andrea and Humar, Gregor and Willsch, Dennis and Jin,
                      Fengping and Willsch, Madita and Michielsen, Kristel and
                      Papic, Zlatko},
      title        = {{S}tirring the false vacuum via interacting quantized
                      bubbles on a 5564-qubit quantum annealer},
      reportid     = {FZJ-2024-05914},
      year         = {2024},
      abstract     = {Understanding the dynamics of complex, strongly interacting
                      many-body systems is crucial in the field of quantum science
                      and engineering. Recent advancements in controlling
                      programmable many-body systems have provided insights into
                      nonequilibrium states, often inaccessible to classical
                      simulations. This talk explores the concept of dynamical
                      resonances, which are radically distinct magnetization
                      dynamics occurring only within a very narrow parameter
                      regime, in the transverse field Ising model realized on a
                      quantum annealer. One example that emerges in such a
                      resonant regime are quantum many-body scars, which are rare,
                      non-thermalizing eigenstates that challenge our
                      understanding of quantum thermalization and ergodicity.We
                      will delve into the theoretical and experimental aspects of
                      dynamical resonances, discussing their relevance in the
                      context of quantum annealing. In particular, we focus on
                      their emergence in the ferromagnetic transverse field Ising
                      model, examining how these elusive quantum phenomena might
                      manifest in state-of-the-art quantum annealers equipped with
                      up to 5564 qubits. The aim of this investigation is to shed
                      light on the properties and dynamics of dynamical
                      resonances, potentially leading to the largest
                      non-equilibrium quantum simulation to date.This talk will
                      encompass theoretical predictions, experimental setup,
                      methodologies, and preliminary results. We will also touch
                      upon the broader implications of understanding dynamical
                      resonances, as they hold the potential to steer entanglement
                      dynamics in complex many-body systems, opening new avenues
                      in quantum science and engineering.},
      month         = {Oct},
      date          = {2024-10-14},
      organization  = {Scientific applications of Quantum
                       Annealers and Simulators, Telluride,
                       Colorado (USA), 14 Oct 2024 - 18 Oct
                       2024},
      subtyp        = {Invited},
      cin          = {JSC},
      cid          = {I:(DE-Juel1)JSC-20090406},
      pnm          = {5122 - Future Computing $\&$ Big Data Systems (POF4-512) /
                      5111 - Domain-Specific Simulation $\&$ Data Life Cycle Labs
                      (SDLs) and Research Groups (POF4-511)},
      pid          = {G:(DE-HGF)POF4-5122 / G:(DE-HGF)POF4-5111},
      typ          = {PUB:(DE-HGF)6},
      url          = {https://juser.fz-juelich.de/record/1031990},
}