Piyakulworawat C.Morita K.Fukumoto Y.Hsieh W.Y.Chen W.T.Nakajima K.Ohira-Kawamura S.Zhao Y.Wannapaiboon S.Piyawongwatthana P.Sato T.J.Matan K.Mahidol University2026-03-162026-03-162026-01-01Physical Review Research Vol.8 No.1 (2026)26431564https://repository.li.mahidol.ac.th/handle/123456789/115727We analyze powder-averaged inelastic neutron scattering and magnetization data for the distorted honeycomb compound Cu5SbO6 using a first-order dimer expansion calculation and quantum Monte Carlo simulations. We show that, in contrast to the previously proposed honeycomb-lattice model, Cu5SbO6 accommodates interacting dimerized spin chains with alternating ferromagnetic-antiferromagnetic couplings along the chain. Moreover, unlike the typical couplings observed in other Cu2+-based distorted honeycomb magnets, the spin chains in Cu5SbO6 primarily couple through an antiferromagnetic coupling that arises between the honeycomb layers, rather than the expected interchain coupling in the layers. This finding reveals a different magnetic coupling scheme for Cu5SbO6. In addition, utilizing x-ray spectroscopy and transmission electron microscopy, we also refine the crystal structure and stacking-fault model of the compound.Physics and AstronomyArticleSCOPUS10.1103/vdgg-d1282-s2.0-105032371477