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QI: Fachverband Quanteninformation
QI 33: Quantum Materials and Many-Body Systems
QI 33.1: Vortrag
Donnerstag, 13. März 2025, 14:30–14:45, HS VIII
Criteria for Matrix-Product Representations of Quantum Many-Particle States — •Lukas Pausch and Matthias Zimmermann — DLR e.V., Institut für Quantentechnologien, Ulm
Tensor networks [1] and in particular matrix-product states [2] have proven extremely useful for the investigation of quantum many-body states, such as, e.g., ground states of local many-body Hamiltonians. They provide an efficient description of these states, avoiding the exponential increase of Hilbert space with particle number at the cost of limiting the entanglement. In particular for matrix-product states, the relation between area laws of Rényi entanglement entropies and efficient simulability of quantum states is nowadays well understood [3]. However, it is not always clear a priori whether or not the relevant states of a given quantum system (e.g., its eigenstates) fulfil such an area law and can thus efficiently be represented by matrix-product states. By investigating specific states of relevance for many-body quantum dynamics, in particular symmetric states and Fock states, we here aim to derive criteria beyond the area law to assess for which quantum systems a description by matrix-product states or more general tensor networks is beneficial.
[1] S. Montangero, Introduction to Tensor Networks (Springer, Cham, 2018)
[2] J. I. Cirac, D. Pérez-García, N. Schuch, and F. Verstraete, Rev. Mod. Phys 93, 045003 (2021)
[3] N. Schuch, M. W. Wolf, F. Verstraete, and J. I. Cirac, Phys. Rev. Lett. 100, 030504 (2008)
Keywords: Tensor Networks; Matrix-Product States