SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892081738> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2892081738 abstract "We compute the zero-temperature dynamical structure factor $S(mathbit{q},ensuremath{omega})$ of the triangular lattice Heisenberg model (TLHM) using a Schwinger boson approach that includes the Gaussian fluctuations ($1/N$ corrections) of the saddle-point solution. While the ground state of this model exhibits a well-known ${120}^{ensuremath{circ}}$ magnetic ordering, experimental observations have revealed a strong quantum character of the excitation spectrum. We conjecture that this phenomenon arises from the proximity of the ground state of the TLHM to the quantum melting point separating the magnetically ordered and spin-liquid states. Within this scenario, magnons are described as collective modes (two-spinon bound states) of a spinon condensate (Higgs phase) that spontaneously break the SU(2) symmetry of the TLHM. Crucial to our results is the proper account of this spontaneous symmetry breaking. The main qualitative difference relative to semiclassical treatments ($1/S$ expansion) is the presence of a high-energy spinon continuum extending up to about three times the single-magnon bandwidth. In addition, the magnitude of the ordered moment ($m=0.224$) agrees very well with numerical results and the low-energy part of the single-magnon dispersion is in very good agreement with series expansions. Our results indicate that the Schwinger boson approach is an adequate starting point for describing the excitation spectrum of some magnetically ordered compounds that are near the quantum melting point separating this Higgs phase from the deconfined spin-liquid state." @default.
W2892081738 created "2018-09-27" @default.
W2892081738 creator A5001932314 @default.
W2892081738 creator A5009594087 @default.
W2892081738 creator A5035203122 @default.
W2892081738 creator A5041739518 @default.
W2892081738 creator A5048476249 @default.
W2892081738 creator A5064974974 @default.
W2892081738 creator A5068619688 @default.
W2892081738 date "2018-11-02" @default.
W2892081738 modified "2023-10-08" @default.
W2892081738 title "Dynamical structure factor of the triangular antiferromagnet: Schwinger boson theory beyond mean field" @default.
W2892081738 cites W1038216876 @default.
W2892081738 cites W142922956 @default.
W2892081738 cites W1488655027 @default.
W2892081738 cites W1541367590 @default.
W2892081738 cites W1584600196 @default.
W2892081738 cites W1813623497 @default.
W2892081738 cites W1960081147 @default.
W2892081738 cites W1964577339 @default.
W2892081738 cites W1968161003 @default.
W2892081738 cites W1976321356 @default.
W2892081738 cites W1979192839 @default.
W2892081738 cites W1981325080 @default.
W2892081738 cites W1986624553 @default.
W2892081738 cites W2003185086 @default.
W2892081738 cites W2003289673 @default.
W2892081738 cites W2003467305 @default.
W2892081738 cites W2004069408 @default.
W2892081738 cites W2004218949 @default.
W2892081738 cites W2005819041 @default.
W2892081738 cites W2007695974 @default.
W2892081738 cites W2014498359 @default.
W2892081738 cites W2015181400 @default.
W2892081738 cites W2021082391 @default.
W2892081738 cites W2021536945 @default.
W2892081738 cites W2022948925 @default.
W2892081738 cites W2026490276 @default.
W2892081738 cites W2029100014 @default.
W2892081738 cites W2029539391 @default.
W2892081738 cites W2029930602 @default.
W2892081738 cites W2031905155 @default.
W2892081738 cites W2032706954 @default.
W2892081738 cites W2037980959 @default.
W2892081738 cites W2040933393 @default.
W2892081738 cites W2041245075 @default.
W2892081738 cites W2044420731 @default.
W2892081738 cites W2045314952 @default.
W2892081738 cites W2047143424 @default.
W2892081738 cites W2048218687 @default.
W2892081738 cites W2052104482 @default.
W2892081738 cites W2055079619 @default.
W2892081738 cites W2057456831 @default.
W2892081738 cites W2057999145 @default.
W2892081738 cites W2062658395 @default.
W2892081738 cites W2068913564 @default.
W2892081738 cites W2074510741 @default.
W2892081738 cites W2081399879 @default.
W2892081738 cites W2085037898 @default.
W2892081738 cites W2086290625 @default.
W2892081738 cites W2086567558 @default.
W2892081738 cites W2090874270 @default.
W2892081738 cites W2091393784 @default.
W2892081738 cites W2093101358 @default.
W2892081738 cites W2093367193 @default.
W2892081738 cites W2106731084 @default.
W2892081738 cites W2134844789 @default.
W2892081738 cites W2162920910 @default.
W2892081738 cites W2203972750 @default.
W2892081738 cites W2231955986 @default.
W2892081738 cites W2262396165 @default.
W2892081738 cites W2415701429 @default.
W2892081738 cites W2479153330 @default.
W2892081738 cites W2493260713 @default.
W2892081738 cites W2610951805 @default.
W2892081738 cites W2745023385 @default.
W2892081738 cites W2754820389 @default.
W2892081738 cites W2765748189 @default.
W2892081738 cites W2770011205 @default.
W2892081738 cites W2781700559 @default.
W2892081738 cites W2802841013 @default.
W2892081738 cites W3022633097 @default.
W2892081738 cites W3098566097 @default.
W2892081738 cites W3100320633 @default.
W2892081738 cites W3101772659 @default.
W2892081738 cites W3102384145 @default.
W2892081738 cites W3102786962 @default.
W2892081738 cites W3105653425 @default.
W2892081738 cites W4211061136 @default.
W2892081738 cites W4229706427 @default.
W2892081738 cites W4244769644 @default.
W2892081738 cites W758724576 @default.
W2892081738 cites W2082429192 @default.
W2892081738 doi "https://doi.org/10.1103/physrevb.98.184403" @default.
W2892081738 hasPublicationYear "2018" @default.
W2892081738 type Work @default.
W2892081738 sameAs 2892081738 @default.
W2892081738 citedByCount "41" @default.
W2892081738 countsByYear W28920817382019 @default.
W2892081738 countsByYear W28920817382020 @default.