Ghent University Academic Bibliography |

Ghent University Academic Bibliography

Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01H3VJPCYTFAA3MHG1JM1WRAM2> ?p ?o. }

Showing items 1 to 23 of 23 with 100 items per page.

01H3VJPCYTFAA3MHG1JM1WRAM2 classification A1.
01H3VJPCYTFAA3MHG1JM1WRAM2 date "2022".
01H3VJPCYTFAA3MHG1JM1WRAM2 language "eng".
01H3VJPCYTFAA3MHG1JM1WRAM2 type journalArticle.
01H3VJPCYTFAA3MHG1JM1WRAM2 hasPart 01H3VKCNBTJ0D6NYQ749W5JF3Q.pdf.
01H3VJPCYTFAA3MHG1JM1WRAM2 subject "Physics and Astronomy".
01H3VJPCYTFAA3MHG1JM1WRAM2 doi "10.1103/PhysRevLett.129.177201".
01H3VJPCYTFAA3MHG1JM1WRAM2 issn "0031-9007".
01H3VJPCYTFAA3MHG1JM1WRAM2 issn "1079-7114".
01H3VJPCYTFAA3MHG1JM1WRAM2 issue "17".
01H3VJPCYTFAA3MHG1JM1WRAM2 volume "129".
01H3VJPCYTFAA3MHG1JM1WRAM2 abstract "Doubts have been raised on the representation of chiral spin liquids exhibiting topological order in terms of projected entangled pair states (PEPSs). Here, starting from a simple spin-1=2 chiral frustrated Heisenberg model, we show that a faithful representation of the chiral spin liquid phase is in fact possible in terms of a generic PEPS upon variational optimization. We find a perfectly chiral gapless edge mode and a rapid decay of correlation functions at short distances consistent with a bulk gap, concomitant with a gossamer long-range tail originating from a PEPS bulk-edge correspondence. For increasing bond dimension, (i) the rapid decrease of spurious features-SU(2) symmetry breaking and long-range tails in correlations-together with (ii) a faster convergence of the ground state energy as compared to state-ofthe-art cylinder matrix-product state simulations involving far more variational parameters, prove the fundamental relevance of the PEPS ansatz for simulating systems with chiral topological order.".
01H3VJPCYTFAA3MHG1JM1WRAM2 author 02E150F8-F0EF-11E1-A197-91C894A0A6B4.
01H3VJPCYTFAA3MHG1JM1WRAM2 author 07B6F872-F0EE-11E1-A9DE-61C894A0A6B4.
01H3VJPCYTFAA3MHG1JM1WRAM2 author urn:uuid:023dcb42-efd9-42a2-bedc-3eeb72b90432.
01H3VJPCYTFAA3MHG1JM1WRAM2 author urn:uuid:23384a0a-ba84-4b1c-be3b-2c483b96ecf1.
01H3VJPCYTFAA3MHG1JM1WRAM2 dateCreated "2023-06-26T10:06:23Z".
01H3VJPCYTFAA3MHG1JM1WRAM2 dateModified "2024-07-09T14:49:53Z".
01H3VJPCYTFAA3MHG1JM1WRAM2 name "Simulating chiral spin liquids with projected entangled-pair states".
01H3VJPCYTFAA3MHG1JM1WRAM2 pagination urn:uuid:4161a5b1-9122-4d52-ba71-88a873f72c75.
01H3VJPCYTFAA3MHG1JM1WRAM2 sameAs LU-01H3VJPCYTFAA3MHG1JM1WRAM2.
01H3VJPCYTFAA3MHG1JM1WRAM2 sourceOrganization urn:uuid:dd981731-d36c-40d5-9f87-26b435c3eb21.
01H3VJPCYTFAA3MHG1JM1WRAM2 type A1.