SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3158871209> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W3158871209 abstract "Highly excited states of quantum many-body systems are central objects in the study of quantum dynamics and thermalization that challenge classical computational methods due to their volume-law entanglement content. In this work, we explore the potential of variational quantum algorithms to approximate such states. We propose an adaptive variational quantum eigensolver (VQE) for excited states (X) that self-generates a variational ansatz for arbitrary eigenstates of a many-body Hamiltonian $H$ by attempting to minimize the energy variance with respect to $H$. We benchmark the method by applying it to an Ising spin chain with integrable and nonintegrable regimes, where we calculate various quantities of interest, including the total energy, magnetization density, and entanglement entropy. We also compare the performance of adaptive VQE-X to an adaptive variant of the folded-spectrum method. For both methods, we find a strong dependence of the algorithm's performance on the choice of operator pool used for the adaptive construction of the ansatz. In particular, an operator pool including long-range two-body gates accelerates the convergence of both algorithms in the nonintegrable regime. We also study the scaling of the number of variational parameters with system size, finding that an exponentially large number of parameters may be necessary to approximate individual highly excited states. Nevertheless, we argue that these methods lay a foundation for the use of quantum algorithms to study finite-energy-density properties of many-body systems." @default.
W3158871209 created "2021-05-10" @default.
W3158871209 creator A5000124174 @default.
W3158871209 creator A5052274720 @default.
W3158871209 creator A5075163502 @default.
W3158871209 creator A5076306308 @default.
W3158871209 creator A5077374865 @default.
W3158871209 date "2021-08-30" @default.
W3158871209 modified "2023-10-06" @default.
W3158871209 title "Adaptive variational quantum eigensolvers for highly excited states" @default.
W3158871209 cites W1167674405 @default.
W3158871209 cites W1812593026 @default.
W3158871209 cites W1937272486 @default.
W3158871209 cites W1965873870 @default.
W3158871209 cites W1986168108 @default.
W3158871209 cites W1992350815 @default.
W3158871209 cites W1995999485 @default.
W3158871209 cites W1997421308 @default.
W3158871209 cites W1998550051 @default.
W3158871209 cites W2001839700 @default.
W3158871209 cites W2019692968 @default.
W3158871209 cites W2025363053 @default.
W3158871209 cites W2034251480 @default.
W3158871209 cites W2034463175 @default.
W3158871209 cites W2037768897 @default.
W3158871209 cites W2086612234 @default.
W3158871209 cites W2126511900 @default.
W3158871209 cites W2127488783 @default.
W3158871209 cites W2129671152 @default.
W3158871209 cites W2161685427 @default.
W3158871209 cites W2219591659 @default.
W3158871209 cites W2254754114 @default.
W3158871209 cites W2257937122 @default.
W3158871209 cites W2297918601 @default.
W3158871209 cites W2607279549 @default.
W3158871209 cites W2755255888 @default.
W3158871209 cites W2760696651 @default.
W3158871209 cites W2781738013 @default.
W3158871209 cites W2794902311 @default.
W3158871209 cites W2803208764 @default.
W3158871209 cites W2811167111 @default.
W3158871209 cites W2887431796 @default.
W3158871209 cites W2896504352 @default.
W3158871209 cites W2907827190 @default.
W3158871209 cites W2914454605 @default.
W3158871209 cites W2938004287 @default.
W3158871209 cites W2954369586 @default.
W3158871209 cites W2954597801 @default.
W3158871209 cites W2956731923 @default.
W3158871209 cites W2963510030 @default.
W3158871209 cites W2964071930 @default.
W3158871209 cites W2999795927 @default.
W3158871209 cites W3008665348 @default.
W3158871209 cites W3046037215 @default.
W3158871209 cites W3074579825 @default.
W3158871209 cites W3080436277 @default.
W3158871209 cites W3086880648 @default.
W3158871209 cites W3098375361 @default.
W3158871209 cites W3099451552 @default.
W3158871209 cites W3099594632 @default.
W3158871209 cites W3103713775 @default.
W3158871209 cites W3103810096 @default.
W3158871209 cites W3103855590 @default.
W3158871209 cites W3104961823 @default.
W3158871209 cites W3105532889 @default.
W3158871209 cites W3105899731 @default.
W3158871209 cites W3106349779 @default.
W3158871209 cites W3108340522 @default.
W3158871209 cites W3112014248 @default.
W3158871209 cites W3157041929 @default.
W3158871209 cites W3181079758 @default.
W3158871209 cites W3189250281 @default.
W3158871209 doi "https://doi.org/10.1103/physrevb.104.075159" @default.
W3158871209 hasPublicationYear "2021" @default.
W3158871209 type Work @default.
W3158871209 sameAs 3158871209 @default.
W3158871209 citedByCount "18" @default.
W3158871209 countsByYear W31588712092021 @default.
W3158871209 countsByYear W31588712092022 @default.
W3158871209 countsByYear W31588712092023 @default.
W3158871209 crossrefType "journal-article" @default.
W3158871209 hasAuthorship W3158871209A5000124174 @default.
W3158871209 hasAuthorship W3158871209A5052274720 @default.
W3158871209 hasAuthorship W3158871209A5075163502 @default.
W3158871209 hasAuthorship W3158871209A5076306308 @default.
W3158871209 hasAuthorship W3158871209A5077374865 @default.
W3158871209 hasBestOaLocation W31588712092 @default.
W3158871209 hasConcept C121040770 @default.
W3158871209 hasConcept C121332964 @default.
W3158871209 hasConcept C121864883 @default.
W3158871209 hasConcept C126255220 @default.
W3158871209 hasConcept C130787639 @default.
W3158871209 hasConcept C130979935 @default.
W3158871209 hasConcept C158693339 @default.
W3158871209 hasConcept C161166931 @default.
W3158871209 hasConcept C181500209 @default.
W3158871209 hasConcept C33923547 @default.
W3158871209 hasConcept C58053490 @default.
W3158871209 hasConcept C62520636 @default.
W3158871209 hasConcept C84114770 @default.