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Literature DB >> 24484043

Molecular quantum magnetism in LiZn2Mo3O8.

M Mourigal¹, W T Fuhrman¹, J P Sheckelton², A Wartelle³, J A Rodriguez-Rivera⁴, D L Abernathy⁵, T M McQueen², C L Broholm⁶.

Abstract

Inelastic neutron scattering at low temperatures T≤30 K from a powder of LiZn2Mo3O8 demonstrates this triangular-lattice antiferromagnet hosts collective magnetic excitations from spin-1/2 Mo3O13 molecules. Apparently gapless (Δ<0.2 meV) and extending at least up to 2.5 meV, the low-energy magnetic scattering cross section is surprisingly broad in momentum space and involves one-third of the spins present above 100 K. The data are compatible with the presence of valence bonds involving nearest-neighbor and next-nearest-neighbor spins forming a disordered or dynamic state.

Entities: Chemical Disease Gene

Year: 2014 PMID： 24484043 DOI： 10.1103/PhysRevLett.112.027202

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

4 in total

Molecular quantum magnetism in LiZn2Mo3O8.

1. Covalent bonds against magnetism in transition metal compounds.

2. Nearest-neighbour resonating valence bonds in YbMgGaO₄.

3. Quantum Magnetic Properties in Perovskite with Anderson Localized Artificial Spin-1/2.

4. Scaling and data collapse from local moments in frustrated disordered quantum spin systems.

Molecular quantum magnetism in LiZn2Mo3O8.

1. Covalent bonds against magnetism in transition metal compounds.

2. Nearest-neighbour resonating valence bonds in YbMgGaO4.

3. Quantum Magnetic Properties in Perovskite with Anderson Localized Artificial Spin-1/2.

4. Scaling and data collapse from local moments in frustrated disordered quantum spin systems.

2. Nearest-neighbour resonating valence bonds in YbMgGaO₄.